A vinyl polymer made from ethylene. It can be branched or linear. Branched or low-density polyethylene is tough and pliable but not to the same degree as linear polyethylene. Linear or high-density polyethylene has a greater hardness and tensile strength. Polyethylene is used in a variety of products, including implants and prostheses.
Synthetic thermoplastics that are tough, flexible, inert, and resistant to chemicals and electrical current. They are often used as biocompatible materials for prostheses and implants.
Polymers of ETHYLENE OXIDE and water, and their ethers. They vary in consistency from liquid to solid depending on the molecular weight indicated by a number following the name. They are used as SURFACTANTS, dispersing agents, solvents, ointment and suppository bases, vehicles, and tablet excipients. Some specific groups are NONOXYNOLS, OCTOXYNOLS, and POLOXAMERS.
Malfunction of implantation shunts, valves, etc., and prosthesis loosening, migration, and breaking.
Agents that are used to stimulate evacuation of the bowels.
Replacement for a hip joint.
Polyester polymers formed from terephthalic acid or its esters and ethylene glycol. They can be formed into tapes, films or pulled into fibers that are pressed into meshes or woven into fabrics.
The plan and delineation of prostheses in general or a specific prosthesis.
Dissolution of bone that particularly involves the removal or loss of calcium.
Specific alloys not less than 85% chromium and nickel or cobalt, with traces of either nickel or cobalt, molybdenum, and other substances. They are used in partial dentures, orthopedic implants, etc.
A generic grouping for dihydric alcohols with the hydroxy groups (-OH) located on different carbon atoms. They are viscous liquids with high boiling points for their molecular weights.
The testing of materials and devices, especially those used for PROSTHESES AND IMPLANTS; SUTURES; TISSUE ADHESIVES; etc., for hardness, strength, durability, safety, efficacy, and biocompatibility.
The part of the pelvis that comprises the pelvic socket where the head of FEMUR joins to form HIP JOINT (acetabulofemoral joint).
The evaluation of incidents involving the loss of function of a device. These evaluations are used for a variety of purposes such as to determine the failure rates, the causes of failures, costs of failures, and the reliability and maintainability of devices.
Replacement of the hip joint.
Synthetic or natural materials, other than DRUGS, that are used to replace or repair any body TISSUES or bodily function.
Forms to which substances are incorporated to improve the delivery and the effectiveness of drugs. Drug carriers are used in drug-delivery systems such as the controlled-release technology to prolong in vivo drug actions, decrease drug metabolism, and reduce drug toxicity. Carriers are also used in designs to increase the effectiveness of drug delivery to the target sites of pharmacological actions. Liposomes, albumin microspheres, soluble synthetic polymers, DNA complexes, protein-drug conjugates, and carrier erythrocytes among others have been employed as biodegradable drug carriers.
An oxide of aluminum, occurring in nature as various minerals such as bauxite, corundum, etc. It is used as an adsorbent, desiccating agent, and catalyst, and in the manufacture of dental cements and refractories.
Characteristics or attributes of the outer boundaries of objects, including molecules.
A diphenylmethane stimulant laxative used for the treatment of CONSTIPATION and for bowel evacuation. (From Martindale, The Extra Pharmacopoeia, 30th ed, p871)
Replacement for a knee joint.
The formation of a solid in a solution as a result of a chemical reaction or the aggregation of soluble substances into complexes large enough to fall out of solution.
The formation of crystalline substances from solutions or melts. (McGraw-Hill Dictionary of Scientific and Technical Terms, 4th ed)
The hemispheric articular surface at the upper extremity of the thigh bone. (Stedman, 26th ed)
Zirconium. A rather rare metallic element, atomic number 40, atomic weight 91.22, symbol Zr. (From Dorland, 28th ed)
Rounded objects made of coral, teflon, or alloplastic polymer and covered with sclera, and which are implanted in the orbit following enucleation. An artificial eye (EYE, ARTIFICIAL) is usually attached to the anterior of the orbital implant for cosmetic purposes.
Biocompatible materials usually used in dental and bone implants that enhance biologic fixation, thereby increasing the bond strength between the coated material and bone, and minimize possible biological effects that may result from the implant itself.
Compounds formed by the joining of smaller, usually repeating, units linked by covalent bonds. These compounds often form large macromolecules (e.g., BIOPOLYMERS; PLASTICS).
The joint that is formed by the articulation of the head of FEMUR and the ACETABULUM of the PELVIS.
A repeat operation for the same condition in the same patient due to disease progression or recurrence, or as followup to failed previous surgery.
Relating to the size of solids.
Nanometer-sized particles that are nanoscale in three dimensions. They include nanocrystaline materials; NANOCAPSULES; METAL NANOPARTICLES; DENDRIMERS, and QUANTUM DOTS. The uses of nanoparticles include DRUG DELIVERY SYSTEMS and cancer targeting and imaging.
Products made by baking or firing nonmetallic minerals (clay and similar materials). In making dental restorations or parts of restorations the material is fused porcelain. (From McGraw-Hill Dictionary of Scientific and Technical Terms, 4th ed & Boucher's Clinical Dental Terminology, 4th ed)
Artificial, single or multilaminar vesicles (made from lecithins or other lipids) that are used for the delivery of a variety of biological molecules or molecular complexes to cells, for example, drug delivery and gene transfer. They are also used to study membranes and membrane proteins.
Prostheses used to partially or totally replace a human or animal joint. (from UMDNS, 1999)
Usually inert substances added to a prescription in order to provide suitable consistency to the dosage form. These include binders, matrix, base or diluent in pills, tablets, creams, salves, etc.
The ability of a substance to be dissolved, i.e. to form a solution with another substance. (From McGraw-Hill Dictionary of Scientific and Technical Terms, 6th ed)
Adhesives used to fix prosthetic devices to bones and to cement bone to bone in difficult fractures. Synthetic resins are commonly used as cements. A mixture of monocalcium phosphate, monohydrate, alpha-tricalcium phosphate, and calcium carbonate with a sodium phosphate solution is also a useful bone paste.
A clear, odorless, tasteless liquid that is essential for most animal and plant life and is an excellent solvent for many substances. The chemical formula is hydrogen oxide (H2O). (McGraw-Hill Dictionary of Scientific and Technical Terms, 4th ed)
Microscopy in which the object is examined directly by an electron beam scanning the specimen point-by-point. The image is constructed by detecting the products of specimen interactions that are projected above the plane of the sample, such as backscattered electrons. Although SCANNING TRANSMISSION ELECTRON MICROSCOPY also scans the specimen point by point with the electron beam, the image is constructed by detecting the electrons, or their interaction products that are transmitted through the sample plane, so that is a form of TRANSMISSION ELECTRON MICROSCOPY.
Chemistry dealing with the composition and preparation of agents having PHARMACOLOGIC ACTIONS or diagnostic use.
The complex formed by the binding of antigen and antibody molecules. The deposition of large antigen-antibody complexes leading to tissue damage causes IMMUNE COMPLEX DISEASES.
Infrequent or difficult evacuation of FECES. These symptoms are associated with a variety of causes, including low DIETARY FIBER intake, emotional or nervous disturbances, systemic and structural disorders, drug-induced aggravation, and infections.
Systems for the delivery of drugs to target sites of pharmacological actions. Technologies employed include those concerning drug preparation, route of administration, site targeting, metabolism, and toxicity.
The washing of a body cavity or surface by flowing water or solution for therapy or diagnosis.
A ready-made or custom-made prosthesis of glass or plastic shaped and colored to resemble the anterior portion of a normal eye and used for cosmetic reasons. It is attached to the anterior portion of an orbital implant (ORBITAL IMPLANTS) which is placed in the socket of an enucleated or eviscerated eye. (From Dorland, 28th ed)
The scattering of x-rays by matter, especially crystals, with accompanying variation in intensity due to interference effects. Analysis of the crystal structure of materials is performed by passing x-rays through them and registering the diffraction image of the rays (CRYSTALLOGRAPHY, X-RAY). (From McGraw-Hill Dictionary of Scientific and Technical Terms, 4th ed)
Chronic inflammation and granuloma formation around irritating foreign bodies.
The quality or state of being wettable or the degree to which something can be wet. This is also the ability of any solid surface to be wetted when in contact with a liquid whose surface tension is reduced so that the liquid spreads over the surface of the solid.
The destroying of all forms of life, especially microorganisms, by heat, chemical, or other means.
The adhesion of gases, liquids, or dissolved solids onto a surface. It includes adsorptive phenomena of bacteria and viruses onto surfaces as well. ABSORPTION into the substance may follow but not necessarily.
A synthetic disaccharide used in the treatment of constipation and hepatic encephalopathy. It has also been used in the diagnosis of gastrointestinal disorders. (From Martindale, The Extra Pharmacopoeia, 30th ed, p887)
Replacement of the knee joint.
Agents that modify interfacial tension of water; usually substances that have one lipophilic and one hydrophilic group in the molecule; includes soaps, detergents, emulsifiers, dispersing and wetting agents, and several groups of antiseptics.
The preparation, mixing, and assembling of a drug. (From Remington, The Science and Practice of Pharmacy, 19th ed, p1814)
Polyphenolic compounds with molecular weights of around 500-3000 daltons and containing enough hydroxyl groups (1-2 per 100 MW) for effective cross linking of other compounds (ASTRINGENTS). The two main types are HYDROLYZABLE TANNINS and CONDENSED TANNINS. Historically, the term has applied to many compounds and plant extracts able to render skin COLLAGEN impervious to degradation. The word tannin derives from the Celtic word for OAK TREE which was used for leather processing.
Histiocytic, inflammatory response to a foreign body. It consists of modified macrophages with multinucleated giant cells, in this case foreign-body giant cells (GIANT CELLS, FOREIGN-BODY), usually surrounded by lymphocytes.
The joining of objects by means of a cement (e.g., in fracture fixation, such as in hip arthroplasty for joining of the acetabular component to the femoral component). In dentistry, it is used for the process of attaching parts of a tooth or restorative material to a natural tooth or for the attaching of orthodontic bands to teeth by means of an adhesive.
The protoplasm and plasma membrane of plant, fungal, bacterial or archaeon cells without the CELL WALL.
Endoscopic examination, therapy or surgery of the luminal surface of the colon.
Agents that produce a soft formed stool, and relax and loosen the bowels, typically used over a protracted period, to relieve CONSTIPATION.
Magnesium oxide (MgO). An inorganic compound that occurs in nature as the mineral periclase. In aqueous media combines quickly with water to form magnesium hydroxide. It is used as an antacid and mild laxative and has many nonmedicinal uses.
A dark-gray, metallic element of widespread distribution but occurring in small amounts; atomic number, 22; atomic weight, 47.90; symbol, Ti; specific gravity, 4.5; used for fixation of fractures. (Dorland, 28th ed)
Water swollen, rigid, 3-dimensional network of cross-linked, hydrophilic macromolecules, 20-95% water. They are used in paints, printing inks, foodstuffs, pharmaceuticals, and cosmetics. (Grant & Hackh's Chemical Dictionary, 5th ed)
Elements of limited time intervals, contributing to particular results or situations.
Surface resistance to the relative motion of one body against the rubbing, sliding, rolling, or flowing of another with which it is in contact.
Chemical compounds derived from acids by the elimination of a molecule of water.
Partial or total replacement of a joint.
A colorless and flammable gas at room temperature and pressure. Ethylene oxide is a bactericidal, fungicidal, and sporicidal disinfectant. It is effective against most micro-organisms, including viruses. It is used as a fumigant for foodstuffs and textiles and as an agent for the gaseous sterilization of heat-labile pharmaceutical and surgical materials. (From Reynolds, Martindale The Extra Pharmacopoeia, 30th ed, p794)
Condition of having pores or open spaces. This often refers to bones, bone implants, or bone cements, but can refer to the porous state of any solid substance.
Strongly cationic polymer that binds to certain proteins; used as a marker in immunology, to precipitate and purify enzymes and lipids. Synonyms: aziridine polymer; Epamine; Epomine; ethylenimine polymer; Montrek; PEI; Polymin(e).
A group of glucose polymers made by certain bacteria. Dextrans are used therapeutically as plasma volume expanders and anticoagulants. They are also commonly used in biological experimentation and in industry for a wide variety of purposes.
A purely physical condition which exists within any material because of strain or deformation by external forces or by non-uniform thermal expansion; expressed quantitatively in units of force per unit area.
Propylene or propene polymers. Thermoplastics that can be extruded into fibers, films or solid forms. They are used as a copolymer in plastics, especially polyethylene. The fibers are used for fabrics, filters and surgical sutures.
The chemical and physical integrity of a pharmaceutical product.
Noninflammatory degenerative disease of the hip joint which usually appears in late middle or old age. It is characterized by growth or maturational disturbances in the femoral neck and head, as well as acetabular dysplasia. A dominant symptom is pain on weight-bearing or motion.
Chemical analysis based on the phenomenon whereby light, passing through a medium with dispersed particles of a different refractive index from that of the medium, is attenuated in intensity by scattering. In turbidimetry, the intensity of light transmitted through the medium, the unscattered light, is measured. In nephelometry, the intensity of the scattered light is measured, usually, but not necessarily, at right angles to the incident light beam.
The sum of the weight of all the atoms in a molecule.
Surgical insertion of a prosthesis.
Substances that dissociate into two or more ions, to some extent, in water. Solutions of electrolytes thus conduct an electric current and can be decomposed by it (ELECTROLYSIS). (Grant & Hackh's Chemical Dictionary, 5th ed)
Fusion of somatic cells in vitro or in vivo, which results in somatic cell hybridization.
Liquids that dissolve other substances (solutes), generally solids, without any change in chemical composition, as, water containing sugar. (Grant & Hackh's Chemical Dictionary, 5th ed)
The gradual destruction of a metal or alloy due to oxidation or action of a chemical agent. (From McGraw-Hill Dictionary of Scientific and Technical Terms, 6th ed)
Polymers of organic acids and alcohols, with ester linkages--usually polyethylene terephthalate; can be cured into hard plastic, films or tapes, or fibers which can be woven into fabrics, meshes or velours.
"Awards and prizes in a medical context refer to formal recognitions, typically bestowed upon healthcare professionals or researchers, for significant contributions to medical advancements, patient care, or professional organizations, often involving monetary rewards, certificates, or trophies."
The branch of medicine concerned with the application of NANOTECHNOLOGY to the prevention and treatment of disease. It involves the monitoring, repair, construction, and control of human biological systems at the molecular level, using engineered nanodevices and NANOSTRUCTURES. (From Freitas Jr., Nanomedicine, vol 1, 1999).
A spectroscopic technique in which a range of wavelengths is presented simultaneously with an interferometer and the spectrum is mathematically derived from the pattern thus obtained.
Particles consisting of aggregates of molecules held loosely together by secondary bonds. The surface of micelles are usually comprised of amphiphatic compounds that are oriented in a way that minimizes the energy of interaction between the micelle and its environment. Liquids that contain large numbers of suspended micelles are referred to as EMULSIONS.
Enzymes that activate one or more COMPLEMENT PROTEINS in the complement system leading to the formation of the COMPLEMENT MEMBRANE ATTACK COMPLEX, an important response in host defense. They are enzymes in the various COMPLEMENT ACTIVATION pathways.
Stainless steel. A steel containing Ni, Cr, or both. It does not tarnish on exposure and is used in corrosive environments. (Grant & Hack's Chemical Dictionary, 5th ed)
Reagents with two reactive groups, usually at opposite ends of the molecule, that are capable of reacting with and thereby forming bridges between side chains of amino acids in proteins; the locations of naturally reactive areas within proteins can thereby be identified; may also be used for other macromolecules, like glycoproteins, nucleic acids, or other.
The surgical removal of the inner contents of the eye, leaving the sclera intact. It should be differentiated from ORBIT EVISCERATION which removes the entire contents of the orbit, including eyeball, blood vessels, muscles, fat, nerve supply, and periosteum.
Methods for performing three-dimensional measurement and motion analysis using stereoscopic radiographs.
Artificial substitutes for body parts, and materials inserted into tissue for functional, cosmetic, or therapeutic purposes. Prostheses can be functional, as in the case of artificial arms and legs, or cosmetic, as in the case of an artificial eye. Implants, all surgically inserted or grafted into the body, tend to be used therapeutically. IMPLANTS, EXPERIMENTAL is available for those used experimentally.
Substances that are used in place of blood, for example, as an alternative to BLOOD TRANSFUSIONS after blood loss to restore BLOOD VOLUME and oxygen-carrying capacity to the blood circulation, or to perfuse isolated organs.
A followup operation to examine the outcome of the previous surgery and other treatments, such as chemotherapy or radiation therapy.
A nonionic polyoxyethylene-polyoxypropylene block co-polymer with the general formula HO(C2H4O)a(-C3H6O)b(C2H4O)aH. It is available in different grades which vary from liquids to solids. It is used as an emulsifying agent, solubilizing agent, surfactant, and wetting agent for antibiotics. Poloxamer is also used in ointment and suppository bases and as a tablet binder or coater. (Martindale The Extra Pharmacopoeia, 31st ed)
Dosage forms of a drug that act over a period of time by controlled-release processes or technology.
A polyester used for absorbable sutures & surgical mesh, especially in ophthalmic surgery. 2-Hydroxy-propanoic acid polymer with polymerized hydroxyacetic acid, which forms 3,6-dimethyl-1,4-dioxane-dione polymer with 1,4-dioxane-2,5-dione copolymer of molecular weight about 80,000 daltons.
A polyvinyl polymer of variable molecular weight; used as suspending and dispersing agent and vehicle for pharmaceuticals; also used as blood volume expander.
The mineral component of bones and teeth; it has been used therapeutically as a prosthetic aid and in the prevention and treatment of osteoporosis.
Formation of a firm impassable mass of stool in the RECTUM or distal COLON.
Nanometer-sized, hollow, spherically-shaped objects that can be utilized to encapsulate small amounts of pharmaceuticals, enzymes, or other catalysts (Glossary of Biotechnology and Nanobiotechnology, 4th ed).
The normality of a solution with respect to HYDROGEN ions; H+. It is related to acidity measurements in most cases by pH = log 1/2[1/(H+)], where (H+) is the hydrogen ion concentration in gram equivalents per liter of solution. (McGraw-Hill Dictionary of Scientific and Technical Terms, 6th ed)
Loose connective tissue lying under the DERMIS, which binds SKIN loosely to subjacent tissues. It may contain a pad of ADIPOCYTES, which vary in number according to the area of the body and vary in size according to the nutritional state.
The climate of a very small area.
Studies in which individuals or populations are followed to assess the outcome of exposures, procedures, or effects of a characteristic, e.g., occurrence of disease.
Accumulation of a drug or chemical substance in various organs (including those not relevant to its pharmacologic or therapeutic action). This distribution depends on the blood flow or perfusion rate of the organ, the ability of the drug to penetrate organ membranes, tissue specificity, protein binding. The distribution is usually expressed as tissue to plasma ratios.
The application of scientific knowledge or technology to pharmacy and the pharmaceutical industry. It includes methods, techniques, and instrumentation in the manufacture, preparation, compounding, dispensing, packaging, and storing of drugs and other preparations used in diagnostic and determinative procedures, and in the treatment of patients.
Removal of an implanted therapeutic or prosthetic device.
Evaluation undertaken to assess the results or consequences of management and procedures used in combating disease in order to determine the efficacy, effectiveness, safety, and practicability of these interventions in individual cases or series.
Serum albumin from cows, commonly used in in vitro biological studies. (From Stedman, 25th ed)
The growth action of bone tissue as it assimilates surgically implanted devices or prostheses to be used as either replacement parts (e.g., hip) or as anchors (e.g., endosseous dental implants).
Diamond. A crystalline form of carbon that occurs as hard, colorless or tinted isomeric crystals. It is used as a precious stone, for cutting glass, and as bearings for delicate mechanisms. (From Grant & Hackh's Chemical Dictionary, 5th ed)
Ionized gases, consisting of free electrons and ionized atoms or molecules which collectively behave differently than gas, solid, or liquid. Plasma gases are used in biomedical fields in surface modification; biological decontamination; dentistry (e.g., PLASMA ARC DENTAL CURING LIGHTS); and in other treatments (e.g., ARGON PLASMA COAGULATION).
The species Oryctolagus cuniculus, in the family Leporidae, order LAGOMORPHA. Rabbits are born in burrows, furless, and with eyes and ears closed. In contrast with HARES, rabbits have 22 chromosome pairs.
A ubiquitous sodium salt that is commonly used to season food.
A series of steps taken in order to conduct research.
Derivatives of phosphatidic acids in which the phosphoric acid is bound in ester linkage to an ethanolamine moiety. Complete hydrolysis yields 1 mole of glycerol, phosphoric acid and ethanolamine and 2 moles of fatty acids.
The study of crystal structure using X-RAY DIFFRACTION techniques. (McGraw-Hill Dictionary of Scientific and Technical Terms, 4th ed)
A poly(dimethylsiloxane) which is a polymer of 200-350 units of dimethylsiloxane, along with added silica gel. It is used as an antiflatulent, surfactant, and ointment base.
Tendency of fluids (e.g., water) to move from the less concentrated to the more concentrated side of a semipermeable membrane.
Substances used to cause adherence of tissue to tissue or tissue to non-tissue surfaces, as for prostheses.
The pressure required to prevent the passage of solvent through a semipermeable membrane that separates a pure solvent from a solution of the solvent and solute or that separates different concentrations of a solution. It is proportional to the osmolality of the solution.
The resistance that a gaseous or liquid system offers to flow when it is subjected to shear stress. (From McGraw-Hill Dictionary of Scientific and Technical Terms, 6th ed)
Tree-like, highly branched, polymeric compounds. They grow three-dimensionally by the addition of shells of branched molecules to a central core. The overall globular shape and presence of cavities gives potential as drug carriers and CONTRAST AGENTS.
The time it takes for a substance (drug, radioactive nuclide, or other) to lose half of its pharmacologic, physiologic, or radiologic activity.
The rate dynamics in chemical or physical systems.
The property of objects that determines the direction of heat flow when they are placed in direct thermal contact. The temperature is the energy of microscopic motions (vibrational and translational) of the particles of atoms.
The replacement of intervertebral discs in the spinal column with artificial devices. The procedure is done in the lumbar or cervical spine to relieve severe pain resulting from INTERVERTEBRAL DISC DEGENERATION.
Preparations of Cassia senna and C. angustifolia (see SENNA PLANT). They contain sennosides, which are anthraquinone type CATHARTICS and are used in many different preparations as laxatives.
Materials which have structured components with at least one dimension in the range of 1 to 100 nanometers. These include NANOCOMPOSITES; NANOPARTICLES; NANOTUBES; and NANOWIRES.
Recession of the eyeball into the orbit.
The second longest bone of the skeleton. It is located on the medial side of the lower leg, articulating with the FIBULA laterally, the TALUS distally, and the FEMUR proximally.
Substances used for the detection, identification, analysis, etc. of chemical, biological, or pathologic processes or conditions. Indicators are substances that change in physical appearance, e.g., color, at or approaching the endpoint of a chemical titration, e.g., on the passage between acidity and alkalinity. Reagents are substances used for the detection or determination of another substance by chemical or microscopical means, especially analysis. Types of reagents are precipitants, solvents, oxidizers, reducers, fluxes, and colorimetric reagents. (From Grant & Hackh's Chemical Dictionary, 5th ed, p301, p499)
A diuretic and renal diagnostic aid related to sorbitol. It has little significant energy value as it is largely eliminated from the body before any metabolism can take place. It can be used to treat oliguria associated with kidney failure or other manifestations of inadequate renal function and has been used for determination of glomerular filtration rate. Mannitol is also commonly used as a research tool in cell biological studies, usually to control osmolarity.
Colloids formed by the combination of two immiscible liquids such as oil and water. Lipid-in-water emulsions are usually liquid, like milk or lotion. Water-in-lipid emulsions tend to be creams. The formation of emulsions may be aided by amphiphatic molecules that surround one component of the system to form MICELLES.
A network of cross-linked hydrophilic macromolecules used in biomedical applications.
A long-acting barbiturate that depresses most metabolic processes at high doses. It is used as a hypnotic and sedative and may induce dependence. Barbital is also used in veterinary practice for central nervous system depression.
A carrier or inert medium used as a solvent (or diluent) in which the medicinally active agent is formulated and or administered. (Dictionary of Pharmacy, 1986)
Form in which product is processed or wrapped and labeled. PRODUCT LABELING is also available.
Polymeric materials (usually organic) of large molecular weight which can be shaped by flow. Plastic usually refers to the final product with fillers, plasticizers, pigments, and stabilizers included (versus the resin, the homogeneous polymeric starting material). (McGraw-Hill Dictionary of Scientific and Technical Terms, 4th ed)
Substances which are of little or no therapeutic value, but are necessary in the manufacture, compounding, storage, etc., of pharmaceutical preparations or drug dosage forms. They include SOLVENTS, diluting agents, and suspending agents, and emulsifying agents. Also, ANTIOXIDANTS; PRESERVATIVES, PHARMACEUTICAL; COLORING AGENTS; FLAVORING AGENTS; VEHICLES; EXCIPIENTS; OINTMENT BASES.
Technique whereby the weight of a sample can be followed over a period of time while its temperature is being changed (usually increased at a constant rate).
A cellulose of varied carboxyl content retaining the fibrous structure. It is commonly used as a local hemostatic and as a matrix for normal blood coagulation.
The maximum stress a material subjected to a stretching load can withstand without tearing. (McGraw-Hill Dictionary of Scientific and Technical Terms, 5th ed, p2001)
A broad family of synthetic organosiloxane polymers containing a repeating silicon-oxygen backbone with organic side groups attached via carbon-silicon bonds. Depending on their structure, they are classified as liquids, gels, and elastomers. (From Merck Index, 12th ed)
Polymers where the main polymer chain comprises recurring amide groups. These compounds are generally formed from combinations of diamines, diacids, and amino acids and yield fibers, sheeting, or extruded forms used in textiles, gels, filters, sutures, contact lenses, and other biomaterials.
Dental procedure in which the entire pulp chamber is removed from the crown and roots of a tooth.
The distance and direction to which a bone joint can be extended. Range of motion is a function of the condition of the joints, muscles, and connective tissues involved. Joint flexibility can be improved through appropriate MUSCLE STRETCHING EXERCISES.
Containers, packaging, and packaging materials for processed and raw foods and beverages. It includes packaging intended to be used for storage and also used for preparation of foods such as microwave food containers versus COOKING AND EATING UTENSILS. Packaging materials may be intended for food contact or designated non-contact, for example, shipping containers. FOOD LABELING is also available.
Classic quantitative assay for detection of antigen-antibody reactions using a radioactively labeled substance (radioligand) either directly or indirectly to measure the binding of the unlabeled substance to a specific antibody or other receptor system. Non-immunogenic substances (e.g., haptens) can be measured if coupled to larger carrier proteins (e.g., bovine gamma-globulin or human serum albumin) capable of inducing antibody formation.
Uptake of substances through the lining of the INTESTINES.
Technique by which phase transitions of chemical reactions can be followed by observation of the heat absorbed or liberated.
The study of the energy of electrons ejected from matter by the photoelectric effect, i.e., as a direct result of absorption of energy from electromagnetic radiation. As the energies of the electrons are characteristic of a specific element, the measurement of the energy of these electrons is a technique used to determine the chemical composition of surfaces.
Displacement of the femur bone from its normal position at the HIP JOINT.
Polymerized methyl methacrylate monomers which are used as sheets, moulding, extrusion powders, surface coating resins, emulsion polymers, fibers, inks, and films (From International Labor Organization, 1983). This material is also used in tooth implants, bone cements, and hard corneal contact lenses.
The properties, processes, and behavior of biological systems under the action of mechanical forces.
The homogeneous mixtures formed by the mixing of a solid, liquid, or gaseous substance (solute) with a liquid (the solvent), from which the dissolved substances can be recovered by physical processes. (From Grant & Hackh's Chemical Dictionary, 5th ed)
Nanometer-scale composite structures composed of organic molecules intimately incorporated with inorganic molecules. (Glossary of Biotechnology and Nanobiotechology Terms, 4th ed)
A yellow metallic element with the atomic symbol Au, atomic number 79, and atomic weight 197. It is used in jewelry, goldplating of other metals, as currency, and in dental restoration. Many of its clinical applications, such as ANTIRHEUMATIC AGENTS, are in the form of its salts.
Nanoparticles produced from metals whose uses include biosensors, optics, and catalysts. In biomedical applications the particles frequently involve the noble metals, especially gold and silver.
An oxidoreductase that catalyzes the reaction between superoxide anions and hydrogen to yield molecular oxygen and hydrogen peroxide. The enzyme protects the cell against dangerous levels of superoxide. EC 1.15.1.1.
Penetrating, high-energy electromagnetic radiation emitted from atomic nuclei during NUCLEAR DECAY. The range of wavelengths of emitted radiation is between 0.1 - 100 pm which overlaps the shorter, more energetic hard X-RAYS wavelengths. The distinction between gamma rays and X-rays is based on their radiation source.
Elimination of ENVIRONMENTAL POLLUTANTS; PESTICIDES and other waste using living organisms, usually involving intervention of environmental or sanitation engineers.
An abnormally low volume of blood circulating through the body. It may result in hypovolemic shock (see SHOCK).
Proteins prepared by recombinant DNA technology.
The process of keeping pharmaceutical products in an appropriate location.
Containers, packaging, and packaging materials for drugs and BIOLOGICAL PRODUCTS. These include those in ampule, capsule, tablet, solution or other forms. Packaging includes immediate-containers, secondary-containers, and cartons. In the United States, such packaging is controlled under the Federal Food, Drug, and Cosmetic Act which also stipulates requirements for tamper-resistance and child-resistance. Similar laws govern use elsewhere. (From Code of Federal Regulations, 21 CFR 1 Section 210, 1993) DRUG LABELING is also available.
An oxidoreductase that catalyzes the conversion of HYDROGEN PEROXIDE to water and oxygen. It is present in many animal cells. A deficiency of this enzyme results in ACATALASIA.
An element of the rare earth family of metals. It has the atomic symbol Y, atomic number 39, and atomic weight 88.91. In conjunction with other rare earths, yttrium is used as a phosphor in television receivers and is a component of the yttrium-aluminum garnet (YAG) lasers.
X-RAY COMPUTERIZED TOMOGRAPHY with resolution in the micrometer range.
Hard or soft soluble containers used for the oral administration of medicine.
A method of separation of two or more substances by repeated distribution between two immiscible liquid phases that move past each other in opposite directions. It is a form of liquid-liquid chromatography. (Stedman, 25th ed)
A subcomponent of complement C1, composed of six copies of three polypeptide chains (A, B, and C), each encoded by a separate gene (C1QA; C1QB; C1QC). This complex is arranged in nine subunits (six disulfide-linked dimers of A and B, and three disulfide-linked homodimers of C). C1q has binding sites for antibodies (the heavy chain of IMMUNOGLOBULIN G or IMMUNOGLOBULIN M). The interaction of C1q and immunoglobulin activates the two proenzymes COMPLEMENT C1R and COMPLEMENT C1S, thus initiating the cascade of COMPLEMENT ACTIVATION via the CLASSICAL COMPLEMENT PATHWAY.
A group of compounds that are monomethyl derivatives of pyridines. (From Dorland, 28th ed)
Inorganic salts of phosphoric acid.
Completed forms of the pharmaceutical preparation in which prescribed doses of medication are included. They are designed to resist action by gastric fluids, prevent vomiting and nausea, reduce or alleviate the undesirable taste and smells associated with oral administration, achieve a high concentration of drug at target site, or produce a delayed or long-acting drug effect.
A subclass of IMIDES with the general structure of pyrrolidinedione. They are prepared by the distillation of ammonium succinate. They are sweet-tasting compounds that are used as chemical intermediates and plant growth stimulants.
The thermodynamic interaction between a substance and WATER.
Injections made into a vein for therapeutic or experimental purposes.
Spherical particles of nanometer dimensions.
The concentration of osmotically active particles in solution expressed in terms of osmoles of solute per liter of solution. Osmolality is expressed in terms of osmoles of solute per kilogram of solvent.
Differential thermal analysis in which the sample compartment of the apparatus is a differential calorimeter, allowing an exact measure of the heat of transition independent of the specific heat, thermal conductivity, and other variables of the sample.
Migration of a foreign body from its original location to some other location in the body.
Substances that influence the course of a chemical reaction by ready combination with free radicals. Among other effects, this combining activity protects pancreatic islets against damage by cytokines and prevents myocardial and pulmonary perfusion injuries.
A mixture of metallic elements or compounds with other metallic or metalloid elements in varying proportions.
Catalyze the joining of preformed ribonucleotides or deoxyribonucleotides in phosphodiester linkage during genetic processes. EC 6.5.1.
Domesticated bovine animals of the genus Bos, usually kept on a farm or ranch and used for the production of meat or dairy products or for heavy labor.
The longest and largest bone of the skeleton, it is situated between the hip and the knee.
Colloids with a solid continuous phase and liquid as the dispersed phase; gels may be unstable when, due to temperature or other cause, the solid phase liquefies; the resulting colloid is called a sol.
Fixed or removable devices that join teeth together. They are used to repair teeth that are mobile as a result of PERIODONTITIS.
Water-soluble low-molecular-weight polymers of acrylic or methacrylic acid that form solid, insoluble products when mixed with specially prepared ZnO powder. The resulting cement adheres to dental enamel and is also used as a luting agent.
The tendency of a gas or solute to pass from a point of higher pressure or concentration to a point of lower pressure or concentration and to distribute itself throughout the available space. Diffusion, especially FACILITATED DIFFUSION, is a major mechanism of BIOLOGICAL TRANSPORT.
Passage of food (sometimes in the form of a test meal) through the gastrointestinal tract as measured in minutes or hours. The rate of passage through the intestine is an indicator of small bowel function.
The heritable modification of the properties of a competent bacterium by naked DNA from another source. The uptake of naked DNA is a naturally occuring phenomenon in some bacteria. It is often used as a GENE TRANSFER TECHNIQUE.
A polyvinyl resin used extensively in the manufacture of plastics, including medical devices, tubing, and other packaging. It is also used as a rubber substitute.
Dimethylformamide (DMF) is an organic compound, commonly used as a solvent, which is not typically considered a medication or therapeutic agent in clinical medicine.
Used in copolymerization reactions, in the Diels-Alder(diene)synthesis, in the preparation of resins, pharmaceuticals and agricultural chemicals. It is a powerful irritant and causes burns.
Established cell cultures that have the potential to propagate indefinitely.
A peptide which is a homopolymer of lysine.
The development and use of techniques to study physical phenomena and construct structures in the nanoscale size range or smaller.

Low-friction arthroplasty of the hip using alumina ceramic and cross-linked polyethylene. A ten-year follow-up report. (1/413)

We report the results of our continued review of 14 hip arthroplasties using alumina ceramic femoral heads with cross-linked polyethylene cups. There have been no complications and a very low rate of penetration. This was 0.02 mm per year after an initial 'bedding-in' period of two years. There has been no change in the mean rate between our earlier study at six years and the current results at 10 to 11 years. The use of these bearing surfaces appears to reduce the potential amount of polyethylene debris and may provide the next logical stage in the development of the Charnley low-friction arthroplasty.  (+info)

The influence of weight-bearing on the measurement of polyethylene wear in THA. (2/413)

We have studied the influence of weight-bearing on the measurement of wear of the polyethylene acetabular component in total hip arthroplasty using two techniques. The measured vertical wear was significantly greater when radiographs were taken weight-bearing rather than with the patient supine (p = 0.001, method 1; p = 0.007, method 2). Calculations of rates of linear wear of the acetabular component were significantly underestimated (p < 0.05) when radiographs were taken supine. There are two reasons for this. First, a change in pelvic orientation when bearing weight ensures that the thinnest polyethylene is brought into relief, and secondly, the head of the femoral component assumes the position of maximal displacement along its wear path. Interpretation of previous studies on both linear and volumetric polyethylene wear in total hip arthroplasty should be reassessed in the light of these findings.  (+info)

Polymersomes: tough vesicles made from diblock copolymers. (3/413)

Vesicles were made from amphiphilic diblock copolymers and characterized by micromanipulation. The average molecular weight of the specific polymer studied, polyethyleneoxide-polyethylethylene (EO40-EE37), is several times greater than that of typical phospholipids in natural membranes. Both the membrane bending and area expansion moduli of electroformed polymersomes (polymer-based liposomes) fell within the range of lipid membrane measurements, but the giant polymersomes proved to be almost an order of magnitude tougher and sustained far greater areal strain before rupture. The polymersome membrane was also at least 10 times less permeable to water than common phospholipid bilayers. The results suggest a new class of synthetic thin-shelled capsules based on block copolymer chemistry.  (+info)

Polyethylene wear, osteolysis and acetabular loosening with an HA-coated hip prosthesis. A follow-up of 94 consecutive arthroplasties. (4/413)

We have followed up for a period of seven to nine years 100 consecutive arthroplasties of the hip in which an entirely HA-coated implant had been used. The clinical results were excellent and bony incorporation was extensive in all components. No stem became loose or subsided but five cups were revised because of loosening after 3.8 to 5.5 years, having functioned painlessly and shown radiological ingrowth. Revision procedures because of excessive polyethylene wear have been performed on 18 hips and are planned for six more. Two eroded metal backings with worn-through polyethylene were exchanged; six hips showed metallosis without polyethylene wear-through. There were two cases of granulomatous cysts in the groin and 66 hips had osteolysis located periarticularly, in the greater trochanter or in the acetabulum.  (+info)

Characterization of DNA condensates induced by poly(ethylene oxide) and polylysine. (5/413)

High-molecular-weight DNA is known to collapse into very compact particles in a salt solution containing polymers like poly(ethylene oxide) [(EO)n] or polyacrylate. The biological relevance of this phenomenon is suggested by our recent finding that high concentrations of the highly acidic internal peptides found in the mature T4 bacteriophage head, as well as poly(glutamic acid) and poly(aspartic acid), can collapse DNA in a similar manner. The structure of DNAs collapsed by various methods has been studied with electron microscope. We find (EO)n collapses T4 or T7 bacteriophage DNA into compact particles only slightly larger than the size of the T4 and T7 head, respectively. In contrast, polylysine collapses DNA into different types of structures. Double-stranded DNA collapsed with (EO)n is cut by the single-strand specific Neurospora crassa endonuclease (EC 3.1.4.21) into small fragments. Extensive digestion only occurs above the critical concentration of polymer required for DNA collapse, demonstrating the (EO)n-collapsed DNA contains enzyme-vulnerable regions (probably at each fold), which are preferentially attacked. The size of the DNA fragments produced by limit-digestion with the nuclease ranges between 200 and 400 base pairs when DNA is collapsed by (EO)n. Only fragments of DNA which are larger than 600 base pairs are cut by the endonuclease in (EO)n-containing solution.  (+info)

Effects of TGFbeta on bone ingrowth in the presence of polyethylene particles. (6/413)

We implanted bone harvest chambers (BHCs) bilaterally in ten mature male New Zealand white rabbits. Polyethylene particles (0.3+/-0.1 microm in diameter, 6.4 x 10(12) particles/ml) were implanted for two, four or six weeks bilaterally in the BHCs, with subsequent removal of the ingrown tissue after each treatment. In addition to the particles, one side also received 1.5 microg of recombinant transforming growth factor beta1 (TGFbeta1). At two weeks, the bone area as a percentage of total area was less in chambers containing TGFbeta compared with those with particles alone (7.8+/-1.3% v 16.9+/-2.7% respectively; 95% confidence interval (CI) for difference -14.0 to -4.30; p = 0.002). At four weeks, the percentage area of bone was greater in chambers containing TGFbeta compared with those with particles alone (31.2+/-3.4% v 22.5+/-2.0% respectively; 95% CI for difference 1.0 to 16.4; p = 0.03). There were no statistical differences at six weeks, despite a higher mean value with TGFbeta treatment (38.2+/-3.9% v 28.8 +/-3.5%; 95% CI for difference -4.6 to 23.3; p = 0.16). The number of vitronectin-receptor-positive cells (osteoclast-like cells) was greater in the treatment group with TGFbeta compared with that with particles alone; most of these positive cells were located in the interstitium, rather than adjacent to bone. TGFbeta1 is a pleotropic growth factor which can modulate cellular events in the musculoskeletal system in a time- and concentration-dependent manner. Our data suggest that there is an early window at between two and six weeks, in which TGFbeta may favourably affect bone ingrowth in the BHC model. Exogenous growth factors such as TGFbeta may be a useful adjunct in obtaining osseointegration and bone ingrowth, especially in revisions when there is compromised bone stock and residual particulate debris.  (+info)

Nasogastric hyperalimentation through a polyethylene catheter: an alternative to central venous hyperalimentation. (7/413)

We performed nasogastric hyperalimentation with polyethylene catheters and appropriate feeding solutions in 12 cachectic patients who had been referred as candidates for central venous hyperalimentation. Most patients had primary gastrointestinal disease. The duration of hyperalimentation averaged 31 days. Seven patients obtained rapid weight gain (average 0.3 kg/day) with the nasogastric hyperalimentation alone. An additional two were successfully repleted with the addition of parenteral fluids via peripheral veins. In the nine repleted patients, serum albumin rose by average 19%, 24-hr urine creatinine by average 21%, and triceps skinfold by average 46%. The nature of the weight gain in the nine successful cases was analyzed by the metabolic balance study technique. Average composition of the increment in weight was: 50% protoplasm, 48% extracellular fluid, 19% adipose tissue, and less than 1% bone. We conclude that nasogastric hyperalimentation can replace central venous hyperalimentation in a substantial proportion of patients now receiving the latter type of treatment.  (+info)

Strike-through of moist contamination by woven and nonwoven surgical materials. (8/413)

A test is described which correlates the stress of stretching surgical gown and drape material with moist bacterial strike-through. By application of this test to a number of woven and nonwoven surgical gown and drape materials, it was found that not all of these materials, either woven or nonwoven, are impermeable to moist contamination for equal periods of time. Nonwoven disposable materials now in use range from those which remain impermeable to moist bacterial permeation through all tests while some remain impermeable for limited periods of time, and others almost immediately permeable to moist bacterial penetration. The same situation holds for woven materials. Under conditions of our test, Quarpel treated Pima tight-woven cotton cloth was impermeable to moist bacterial strike-through, through up to 75 washing and sterilizing cyclings, while ordinary linen and untreated Pima cloth permitted bacterial permeation almost immediately. These results have significance in lengthy wet surgical operations.  (+info)

I'm sorry for any confusion, but "Polyethylene" is not a medical term. It is a type of synthetic plastic that is commonly used in various industrial and consumer products. Medical definitions typically refer to substances or conditions related to human health, treatment, or disease processes. If you have any questions related to medical terminology or concepts, I'd be happy to help!

I believe there may be some confusion in your question as Polyethylenes are not a medical term, but rather a category of synthetic polymers commonly used in various industrial and medical applications. Here's a brief overview:

Polyethylene (PE) is a type of thermoplastic polymer made from the monomer ethylene. It is a versatile material with numerous applications due to its chemical resistance, durability, and flexibility. There are several types of polyethylenes, including:

1. Low-density polyethylene (LDPE): This type has a lower density and more branching in its molecular structure, which results in less crystallinity. LDPE is known for its flexibility and is often used in packaging films, bags, and containers.
2. High-density polyethylene (HDPE): HDPE has a higher density and less branching, resulting in greater crystallinity. It is more rigid than LDPE and is commonly used in applications such as bottles, pipes, and containers.
3. Linear low-density polyethylene (LLDPE): This type combines the flexibility of LDPE with some of the strength and rigidity of HDPE. LLDPE has fewer branches than LDPE but more than HDPE. It is often used in film applications, such as stretch wrap and agricultural films.
4. Ultra-high molecular weight polyethylene (UHMWPE): UHMWPE has an extremely high molecular weight, resulting in exceptional wear resistance, impact strength, and chemical resistance. It is commonly used in medical applications, such as orthopedic implants and joint replacements, due to its biocompatibility and low friction coefficient.

While polyethylenes are not a medical term per se, they do have significant medical applications, particularly UHMWPE in orthopedic devices.

Polyethylene glycols (PEGs) are a family of synthetic, water-soluble polymers with a wide range of molecular weights. They are commonly used in the medical field as excipients in pharmaceutical formulations due to their ability to improve drug solubility, stability, and bioavailability. PEGs can also be used as laxatives to treat constipation or as bowel cleansing agents prior to colonoscopy examinations. Additionally, some PEG-conjugated drugs have been developed for use in targeted cancer therapies.

In a medical context, PEGs are often referred to by their average molecular weight, such as PEG 300, PEG 400, PEG 1500, and so on. Higher molecular weight PEGs tend to be more viscous and have longer-lasting effects in the body.

It's worth noting that while PEGs are generally considered safe for use in medical applications, some people may experience allergic reactions or hypersensitivity to these compounds. Prolonged exposure to high molecular weight PEGs has also been linked to potential adverse effects, such as decreased fertility and developmental toxicity in animal studies. However, more research is needed to fully understand the long-term safety of PEGs in humans.

Prosthesis failure is a term used to describe a situation where a prosthetic device, such as an artificial joint or limb, has stopped functioning or failed to meet its intended purpose. This can be due to various reasons, including mechanical failure, infection, loosening of the device, or a reaction to the materials used in the prosthesis.

Mechanical failure can occur due to wear and tear, manufacturing defects, or improper use of the prosthetic device. Infection can also lead to prosthesis failure, particularly in cases where the prosthesis is implanted inside the body. The immune system may react to the presence of the foreign material, leading to inflammation and infection.

Loosening of the prosthesis can also cause it to fail over time, as the device becomes less stable and eventually stops working properly. Additionally, some people may have a reaction to the materials used in the prosthesis, leading to tissue damage or other complications that can result in prosthesis failure.

In general, prosthesis failure can lead to decreased mobility, pain, and the need for additional surgeries or treatments to correct the problem. It is important for individuals with prosthetic devices to follow their healthcare provider's instructions carefully to minimize the risk of prosthesis failure and ensure that the device continues to function properly over time.

Cathartics are a type of medication that stimulates bowel movements and evacuates the intestinal tract. They are often used to treat constipation or to prepare the bowel for certain medical procedures, such as colonoscopies. Common cathartic medications include laxatives, enemas, and suppositories.

Cathartics work by increasing the muscle contractions of the intestines, which helps to move stool through the digestive tract more quickly. They may also increase the amount of water in the stool, making it softer and easier to pass. Some cathartics, such as bulk-forming laxatives, work by absorbing water and swelling in the intestines, which helps to bulk up the stool and stimulate a bowel movement.

While cathartics can be effective at relieving constipation, they should be used with caution. Overuse of cathartics can lead to dependence on them for bowel movements, as well as electrolyte imbalances and other complications. It is important to follow the instructions carefully when using cathartic medications and to speak with a healthcare provider if constipation persists or worsens.

A hip prosthesis, also known as a total hip replacement, is a surgical implant designed to replace the damaged or diseased components of the human hip joint. The procedure involves replacing the femoral head (the ball at the top of the thigh bone) and the acetabulum (the socket in the pelvis) with artificial parts, typically made from materials such as metal, ceramic, or plastic.

The goal of a hip prosthesis is to relieve pain, improve joint mobility, and restore function, allowing patients to return to their normal activities and enjoy an improved quality of life. The procedure is most commonly performed in individuals with advanced osteoarthritis, rheumatoid arthritis, or other degenerative conditions that have caused significant damage to the hip joint.

There are several different types of hip prostheses available, each with its own unique design and set of benefits and risks. The choice of prosthesis will depend on a variety of factors, including the patient's age, activity level, overall health, and specific medical needs. In general, however, all hip prostheses are designed to provide a durable, long-lasting solution for patients suffering from debilitating joint pain and stiffness.

I'm sorry for any confusion, but "Polyethylene Terephthalates" is not a medical term. It is a type of polymer used in the manufacturing of various products, such as plastic bottles and textile fibers. Medically, you might encounter the abbreviation "PET" or "PET scan," which stands for "Positron Emission Tomography." A PET scan is a type of medical imaging that provides detailed pictures of the body's interior. If you have any medical terms you would like defined, I'd be happy to help!

Prosthesis design is a specialized field in medical device technology that involves creating and developing artificial substitutes to replace a missing body part, such as a limb, tooth, eye, or internal organ. The design process typically includes several stages: assessment of the patient's needs, selection of appropriate materials, creation of a prototype, testing and refinement, and final fabrication and fitting of the prosthesis.

The goal of prosthesis design is to create a device that functions as closely as possible to the natural body part it replaces, while also being comfortable, durable, and aesthetically pleasing for the patient. The design process may involve collaboration between medical professionals, engineers, and designers, and may take into account factors such as the patient's age, lifestyle, occupation, and overall health.

Prosthesis design can be highly complex, particularly for advanced devices such as robotic limbs or implantable organs. These devices often require sophisticated sensors, actuators, and control systems to mimic the natural functions of the body part they replace. As a result, prosthesis design is an active area of research and development in the medical field, with ongoing efforts to improve the functionality, comfort, and affordability of these devices for patients.

Osteolysis is a medical term that refers to the loss or resorption of bone tissue. It's a process where the body's normal bone remodeling cycle is disrupted, leading to an imbalance between bone formation and bone breakdown. This results in the progressive deterioration and destruction of bone.

Osteolysis can occur due to various reasons such as chronic inflammation, mechanical stress, or certain medical conditions like rheumatoid arthritis, Paget's disease, or bone tumors. It can also be a side effect of some medications, such as those used in cancer treatment or for managing osteoporosis.

In severe cases, osteolysis can lead to weakened bones, increased risk of fractures, and deformities. Treatment typically aims to address the underlying cause and may include medication, surgery, or lifestyle changes.

Chromium alloys are materials made by combining chromium with other metals, such as nickel, cobalt, or iron. The addition of chromium to these alloys enhances their properties, making them resistant to corrosion and high temperatures. These alloys have a wide range of applications in various industries, including automotive, aerospace, and medical devices.

Chromium alloys can be classified into two main categories: stainless steels and superalloys. Stainless steels are alloys that contain at least 10.5% chromium by weight, which forms a passive oxide layer on the surface of the material, protecting it from corrosion. Superalloys, on the other hand, are high-performance alloys designed to operate in extreme environments, such as jet engines and gas turbines. They contain significant amounts of chromium, along with other elements like nickel, cobalt, and molybdenum.

Chromium alloys have several medical applications due to their excellent properties. For instance, they are used in surgical instruments, dental implants, and orthopedic devices because of their resistance to corrosion and biocompatibility. Additionally, some chromium alloys exhibit superelasticity, a property that allows them to return to their original shape after being deformed, making them suitable for use in stents and other medical devices that require flexibility and durability.

Glycols are a type of organic compound that contain two hydroxyl (OH) groups attached to adjacent carbon atoms. They are colorless, odorless, and have a sweet taste. The most common glycols are ethylene glycol and propylene glycol. Ethylene glycol is widely used as an automotive antifreeze and in the manufacture of polyester fibers and resins, while propylene glycol is used as a food additive, in pharmaceuticals, and as a solvent in various industries. Glycols are also used as a coolant, humectant, and in the production of unsaturated polyester resins. Exposure to high levels of glycols can cause irritation to the eyes, skin, and respiratory tract, and ingestion can be harmful or fatal.

I'm happy to help! However, I must clarify that "materials testing" is not a medical term per se. It is a term used in various fields, including engineering and materials science, to describe the process of subjecting materials to different tests to evaluate their properties and performance under various conditions.

In the context of medical devices or implants, materials testing may refer to the evaluation of the physical and mechanical properties of materials used in their construction. These tests can include assessments of strength, durability, biocompatibility, and other factors that are critical to ensuring the safety and efficacy of medical devices.

Medical device manufacturers must comply with regulatory standards for materials testing to ensure that their products meet specific requirements for performance, safety, and quality. These standards may vary depending on the type of device, its intended use, and the country or region in which it will be marketed and sold.

The acetabulum is the cup-shaped cavity in the pelvic bone (specifically, the os coxa) where the head of the femur bone articulates to form the hip joint. It provides a stable and flexible connection between the lower limb and the trunk, allowing for a wide range of movements such as flexion, extension, abduction, adduction, rotation, and circumduction. The acetabulum is lined with articular cartilage, which facilitates smooth and frictionless movement of the hip joint. Its stability is further enhanced by various ligaments, muscles, and the labrum, a fibrocartilaginous rim that deepens the socket and increases its contact area with the femoral head.

Equipment Failure Analysis is a process of identifying the cause of failure in medical equipment or devices. This involves a systematic examination and evaluation of the equipment, its components, and operational history to determine why it failed. The analysis may include physical inspection, chemical testing, and review of maintenance records, as well as assessment of design, manufacturing, and usage factors that may have contributed to the failure.

The goal of Equipment Failure Analysis is to identify the root cause of the failure, so that corrective actions can be taken to prevent similar failures in the future. This is important in medical settings to ensure patient safety and maintain the reliability and effectiveness of medical equipment.

Hip arthroplasty, also known as hip replacement surgery, is a medical procedure where the damaged or diseased joint surfaces of the hip are removed and replaced with artificial components. These components typically include a metal or ceramic ball that replaces the head of the femur (thigh bone), and a polyethylene or ceramic socket that replaces the acetabulum (hip socket) in the pelvis.

The goal of hip arthroplasty is to relieve pain, improve joint mobility, and restore function to the hip joint. This procedure is commonly performed in patients with advanced osteoarthritis, rheumatoid arthritis, hip fractures, or other conditions that cause significant damage to the hip joint.

There are several types of hip replacement surgeries, including traditional total hip arthroplasty, partial (hemi) hip arthroplasty, and resurfacing hip arthroplasty. The choice of procedure depends on various factors, such as the patient's age, activity level, overall health, and the extent of joint damage.

After surgery, patients typically require rehabilitation to regain strength, mobility, and function in the affected hip. With proper care and follow-up, most patients can expect significant pain relief and improved quality of life following hip arthroplasty.

Biocompatible materials are non-toxic and non-reacting substances that can be used in medical devices, tissue engineering, and drug delivery systems without causing harm or adverse reactions to living tissues or organs. These materials are designed to mimic the properties of natural tissues and are able to integrate with biological systems without being rejected by the body's immune system.

Biocompatible materials can be made from a variety of substances, including metals, ceramics, polymers, and composites. The specific properties of these materials, such as their mechanical strength, flexibility, and biodegradability, are carefully selected to meet the requirements of their intended medical application.

Examples of biocompatible materials include titanium used in dental implants and joint replacements, polyethylene used in artificial hips, and hydrogels used in contact lenses and drug delivery systems. The use of biocompatible materials has revolutionized modern medicine by enabling the development of advanced medical technologies that can improve patient outcomes and quality of life.

A drug carrier, also known as a drug delivery system or vector, is a vehicle that transports a pharmaceutical compound to a specific site in the body. The main purpose of using drug carriers is to improve the efficacy and safety of drugs by enhancing their solubility, stability, bioavailability, and targeted delivery, while minimizing unwanted side effects.

Drug carriers can be made up of various materials, including natural or synthetic polymers, lipids, inorganic nanoparticles, or even cells and viruses. They can encapsulate, adsorb, or conjugate drugs through different mechanisms, such as physical entrapment, electrostatic interaction, or covalent bonding.

Some common types of drug carriers include:

1. Liposomes: spherical vesicles composed of one or more lipid bilayers that can encapsulate hydrophilic and hydrophobic drugs.
2. Polymeric nanoparticles: tiny particles made of biodegradable polymers that can protect drugs from degradation and enhance their accumulation in target tissues.
3. Dendrimers: highly branched macromolecules with a well-defined structure and size that can carry multiple drug molecules and facilitate their release.
4. Micelles: self-assembled structures formed by amphiphilic block copolymers that can solubilize hydrophobic drugs in water.
5. Inorganic nanoparticles: such as gold, silver, or iron oxide nanoparticles, that can be functionalized with drugs and targeting ligands for diagnostic and therapeutic applications.
6. Cell-based carriers: living cells, such as red blood cells, stem cells, or immune cells, that can be loaded with drugs and used to deliver them to specific sites in the body.
7. Viral vectors: modified viruses that can infect cells and introduce genetic material encoding therapeutic proteins or RNA interference molecules.

The choice of drug carrier depends on various factors, such as the physicochemical properties of the drug, the route of administration, the target site, and the desired pharmacokinetics and biodistribution. Therefore, selecting an appropriate drug carrier is crucial for achieving optimal therapeutic outcomes and minimizing side effects.

Aluminum oxide is a chemical compound with the formula Al2O3. It is also known as alumina and it is a white solid that is widely used in various industries due to its unique properties. Aluminum oxide is highly resistant to corrosion, has a high melting point, and is an electrical insulator.

In the medical field, aluminum oxide is used in a variety of applications such as:

1. Dental crowns and implants: Aluminum oxide is used in the production of dental crowns and implants due to its strength and durability.
2. Orthopedic implants: Aluminum oxide is used in some types of orthopedic implants, such as knee and hip replacements, because of its biocompatibility and resistance to wear.
3. Medical ceramics: Aluminum oxide is used in the production of medical ceramics, which are used in various medical devices such as pacemakers and hearing aids.
4. Pharmaceuticals: Aluminum oxide is used as an excipient in some pharmaceutical products, such as tablets and capsules, to improve their stability and shelf life.
5. Medical research: Aluminum oxide is used in medical research, for example, as a substrate material for growing cells or as a coating material for medical devices.

It's important to note that while aluminum oxide has many useful applications in the medical field, exposure to high levels of aluminum can be harmful to human health. Therefore, it is important to use aluminum oxide and other aluminum-containing materials safely and according to established guidelines.

Surface properties in the context of medical science refer to the characteristics and features of the outermost layer or surface of a biological material or structure, such as cells, tissues, organs, or medical devices. These properties can include physical attributes like roughness, smoothness, hydrophobicity or hydrophilicity, and electrical conductivity, as well as chemical properties like charge, reactivity, and composition.

In the field of biomaterials science, understanding surface properties is crucial for designing medical implants, devices, and drug delivery systems that can interact safely and effectively with biological tissues and fluids. Surface modifications, such as coatings or chemical treatments, can be used to alter surface properties and enhance biocompatibility, improve lubricity, reduce fouling, or promote specific cellular responses like adhesion, proliferation, or differentiation.

Similarly, in the field of cell biology, understanding surface properties is essential for studying cell-cell interactions, cell signaling, and cell behavior. Cells can sense and respond to changes in their environment, including variations in surface properties, which can influence cell shape, motility, and function. Therefore, characterizing and manipulating surface properties can provide valuable insights into the mechanisms of cellular processes and offer new strategies for developing therapies and treatments for various diseases.

Bisacodyl is a stimulant laxative that is used to treat constipation and to clean out the intestines before a colonoscopy or other medical procedures. It works by increasing the muscle contractions in the intestines, which helps to move stool through the bowels and promotes bowel movements. Bisacodyl is available as a tablet or suppository, and it is typically taken at night to produce a bowel movement the next morning.

Bisacodyl is a prescription medication, and it should be used under the guidance of a healthcare professional. It is important to follow the instructions for use carefully, as improper use can increase the risk of side effects such as dehydration, electrolyte imbalances, and dependence on laxatives.

Some common side effects of bisacodyl include abdominal cramping, diarrhea, and nausea. These side effects are usually mild and go away on their own. However, if they are severe or persist, it is important to talk to a healthcare professional. In rare cases, bisacodyl can cause more serious side effects such as allergic reactions, heart problems, and intestinal inflammation. If you experience any of these side effects, seek medical attention immediately.

It is important to note that bisacodyl is not recommended for long-term use, as it can lead to dependence on laxatives and other health problems. It should only be used as directed by a healthcare professional and for the shortest duration necessary to treat constipation or prepare for a medical procedure.

A knee prosthesis, also known as a knee replacement or artificial knee joint, is a medical device used to replace the damaged or diseased weight-bearing surfaces of the knee joint. It typically consists of three components: the femoral component (made of metal) that fits over the end of the thighbone (femur), the tibial component (often made of metal and plastic) that fits into the top of the shinbone (tibia), and a patellar component (usually made of plastic) that replaces the damaged surface of the kneecap.

The primary goal of knee prosthesis is to relieve pain, restore function, and improve quality of life for individuals with advanced knee joint damage due to conditions such as osteoarthritis, rheumatoid arthritis, or traumatic injuries. The procedure to implant a knee prosthesis is called knee replacement surgery or total knee arthroplasty (TKA).

Chemical precipitation is a process in which a chemical compound becomes a solid, insoluble form, known as a precipitate, from a liquid solution. This occurs when the concentration of the compound in the solution exceeds its solubility limit and forms a separate phase. The reaction that causes the formation of the precipitate can be a result of various factors such as changes in temperature, pH, or the addition of another chemical reagent.

In the medical field, chemical precipitation is used in diagnostic tests to detect and measure the presence of certain substances in body fluids, such as blood or urine. For example, a common test for kidney function involves adding a chemical reagent to a urine sample, which causes the excess protein in the urine to precipitate out of solution. The amount of precipitate formed can then be measured and used to diagnose and monitor kidney disease.

Chemical precipitation is also used in the treatment of certain medical conditions, such as heavy metal poisoning. In this case, a chelating agent is administered to bind with the toxic metal ions in the body, forming an insoluble compound that can be excreted through the urine or feces. This process helps to reduce the amount of toxic metals in the body and alleviate symptoms associated with poisoning.

Crystallization is a process in which a substance transitions from a liquid or dissolved state to a solid state, forming a crystal lattice. In the medical context, crystallization can refer to the formation of crystals within the body, which can occur under certain conditions such as changes in pH, temperature, or concentration of solutes. These crystals can deposit in various tissues and organs, leading to the formation of crystal-induced diseases or disorders.

For example, in patients with gout, uric acid crystals can accumulate in joints, causing inflammation, pain, and swelling. Similarly, in nephrolithiasis (kidney stones), minerals in the urine can crystallize and form stones that can obstruct the urinary tract. Crystallization can also occur in other medical contexts, such as in the formation of dental calculus or plaque, and in the development of cataracts in the eye.

The femoral head is the rounded, ball-like top portion of the femur (thigh bone) that fits into the hip socket (acetabulum) to form the hip joint. It has a smooth, articular cartilage surface that allows for smooth and stable articulation with the pelvis. The femoral head is connected to the femoral neck, which is a narrower section of bone that angles downward and leads into the shaft of the femur. Together, the femoral head and neck provide stability and range of motion to the hip joint.

Zirconium is not a medical term, but it is a chemical element with the symbol Zr and atomic number 40. It is a gray-white, strong, corrosion-resistant transition metal that is used primarily in nuclear reactors, as an opacifier in glazes for ceramic cookware, and in surgical implants such as artificial joints due to its biocompatibility.

In the context of medical devices or implants, zirconium alloys may be used for their mechanical properties and resistance to corrosion. For example, zirconia (a form of zirconium dioxide) is a popular material for dental crowns and implants due to its durability, strength, and natural appearance.

However, it's important to note that while zirconium itself is not considered a medical term, there are various medical applications and devices that utilize zirconium-based materials.

Orbital implants are medical devices used in the field of ophthalmology, specifically for orbital fracture repair and enucleation or evisceration procedures. They serve as a replacement for the natural eye structure (the eyeball) when it is removed due to various reasons such as severe trauma, tumors, or painful blind eyes.

Orbital implants are typically made of biocompatible materials like porous polyethylene, hydroxyapatite, or glass. These materials allow for the growth of fibrovascular tissue into the pores, which helps to integrate the implant with the surrounding tissues and minimize movement. The size of the implant is chosen based on the individual patient's needs and may vary from 16mm to 24mm in diameter.

The primary function of orbital implants is to restore the volume and shape of the eye socket, maintain proper eyelid position and function, and provide a foundation for the attachment of an ocular prosthesis (artificial eye) that can be worn over the implant to give a more natural appearance.

Biocompatible coated materials refer to surfaces or substances that are treated or engineered with a layer or film designed to interact safely and effectively with living tissues or biological systems, without causing harm or adverse reactions. The coating material is typically composed of biomaterials that can withstand the conditions of the specific application while promoting a positive response from the body.

The purpose of these coatings may vary depending on the medical device or application. For example, they might be used to enhance the lubricity and wear resistance of implantable devices, reduce the risk of infection, promote integration with surrounding tissues, control drug release, or prevent the formation of biofilms.

Biocompatible coated materials must undergo rigorous testing and evaluation to ensure their safety and efficacy in various clinical settings. This includes assessing potential cytotoxicity, genotoxicity, sensitization, hemocompatibility, carcinogenicity, and other factors that could impact the body's response to the material.

Examples of biocompatible coating materials include:

1. Hydrogels: Cross-linked networks of hydrophilic polymers that can be used for drug delivery, tissue engineering, or as lubricious coatings on medical devices.
2. Self-assembling monolayers (SAMs): Organosilane or thiol-based molecules that form a stable, well-ordered film on surfaces, which can be further functionalized to promote specific biological interactions.
3. Poly(ethylene glycol) (PEG): A biocompatible polymer often used as a coating material due to its ability to reduce protein adsorption and cell attachment, making it useful for preventing biofouling or thrombosis on medical devices.
4. Bioactive glass: A type of biomaterial composed of silica-based glasses that can stimulate bone growth and healing when used as a coating material in orthopedic or dental applications.
5. Drug-eluting coatings: Biocompatible polymers impregnated with therapeutic agents, designed to release the drug over time to promote healing, prevent infection, or inhibit restenosis in various medical devices.

In the context of medical definitions, polymers are large molecules composed of repeating subunits called monomers. These long chains of monomers can have various structures and properties, depending on the type of monomer units and how they are linked together. In medicine, polymers are used in a wide range of applications, including drug delivery systems, medical devices, and tissue engineering scaffolds. Some examples of polymers used in medicine include polyethylene, polypropylene, polystyrene, polyvinyl chloride (PVC), and biodegradable polymers such as polylactic acid (PLA) and polycaprolactone (PCL).

The hip joint, also known as the coxal joint, is a ball-and-socket type synovial joint that connects the femur (thigh bone) to the pelvis. The "ball" is the head of the femur, while the "socket" is the acetabulum, a concave surface on the pelvic bone.

The hip joint is surrounded by a strong fibrous capsule and is reinforced by several ligaments, including the iliofemoral, ischiofemoral, and pubofemoral ligaments. The joint allows for flexion, extension, abduction, adduction, medial and lateral rotation, and circumduction movements, making it one of the most mobile joints in the body.

The hip joint is also supported by various muscles, including the gluteus maximus, gluteus medius, gluteus minimus, iliopsoas, and other hip flexors and extensors. These muscles provide stability and strength to the joint, allowing for weight-bearing activities such as walking, running, and jumping.

A reoperation is a surgical procedure that is performed again on a patient who has already undergone a previous operation for the same or related condition. Reoperations may be required due to various reasons, such as inadequate initial treatment, disease recurrence, infection, or complications from the first surgery. The nature and complexity of a reoperation can vary widely depending on the specific circumstances, but it often carries higher risks and potential complications compared to the original operation.

In the context of medical and health sciences, particle size generally refers to the diameter or dimension of particles, which can be in the form of solid particles, droplets, or aerosols. These particles may include airborne pollutants, pharmaceutical drugs, or medical devices such as nanoparticles used in drug delivery systems.

Particle size is an important factor to consider in various medical applications because it can affect the behavior and interactions of particles with biological systems. For example, smaller particle sizes can lead to greater absorption and distribution throughout the body, while larger particle sizes may be filtered out by the body's natural defense mechanisms. Therefore, understanding particle size and its implications is crucial for optimizing the safety and efficacy of medical treatments and interventions.

Nanoparticles are defined in the field of medicine as tiny particles that have at least one dimension between 1 to 100 nanometers (nm). They are increasingly being used in various medical applications such as drug delivery, diagnostics, and therapeutics. Due to their small size, nanoparticles can penetrate cells, tissues, and organs more efficiently than larger particles, making them ideal for targeted drug delivery and imaging.

Nanoparticles can be made from a variety of materials including metals, polymers, lipids, and dendrimers. The physical and chemical properties of nanoparticles, such as size, shape, charge, and surface chemistry, can greatly affect their behavior in biological systems and their potential medical applications.

It is important to note that the use of nanoparticles in medicine is still a relatively new field, and there are ongoing studies to better understand their safety and efficacy.

In the field of medicine, ceramics are commonly referred to as inorganic, non-metallic materials that are made up of compounds such as oxides, carbides, and nitrides. These materials are often used in medical applications due to their biocompatibility, resistance to corrosion, and ability to withstand high temperatures. Some examples of medical ceramics include:

1. Bioceramics: These are ceramic materials that are used in medical devices and implants, such as hip replacements, dental implants, and bone grafts. They are designed to be biocompatible, which means they can be safely implanted into the body without causing an adverse reaction.
2. Ceramic coatings: These are thin layers of ceramic material that are applied to medical devices and implants to improve their performance and durability. For example, ceramic coatings may be used on orthopedic implants to reduce wear and tear, or on cardiovascular implants to prevent blood clots from forming.
3. Ceramic membranes: These are porous ceramic materials that are used in medical filtration systems, such as hemodialysis machines. They are designed to selectively filter out impurities while allowing essential molecules to pass through.
4. Ceramic scaffolds: These are three-dimensional structures made of ceramic material that are used in tissue engineering and regenerative medicine. They provide a framework for cells to grow and multiply, helping to repair or replace damaged tissues.

Overall, medical ceramics play an important role in modern healthcare, providing safe and effective solutions for a wide range of medical applications.

Liposomes are artificially prepared, small, spherical vesicles composed of one or more lipid bilayers that enclose an aqueous compartment. They can encapsulate both hydrophilic and hydrophobic drugs, making them useful for drug delivery applications in the medical field. The lipid bilayer structure of liposomes is similar to that of biological membranes, which allows them to merge with and deliver their contents into cells. This property makes liposomes a valuable tool in delivering drugs directly to targeted sites within the body, improving drug efficacy while minimizing side effects.

A joint prosthesis, also known as an artificial joint or a replacement joint, is a surgical implant used to replace all or part of a damaged or diseased joint. The most common types of joint prostheses are total hip replacements and total knee replacements. These prostheses typically consist of a combination of metal, plastic, and ceramic components that are designed to replicate the movement and function of a natural joint.

Joint prostheses are usually recommended for patients who have severe joint pain or mobility issues that cannot be adequately managed with other treatments such as physical therapy, medication, or lifestyle changes. The goal of joint replacement surgery is to relieve pain, improve joint function, and enhance the patient's quality of life.

Joint prostheses are typically made from materials such as titanium, cobalt-chrome alloys, stainless steel, polyethylene plastic, and ceramics. The choice of material depends on a variety of factors, including the patient's age, activity level, weight, and overall health.

While joint replacement surgery is generally safe and effective, there are risks associated with any surgical procedure, including infection, blood clots, implant loosening or failure, and nerve damage. Patients who undergo joint replacement surgery typically require several weeks of rehabilitation and physical therapy to regain strength and mobility in the affected joint.

Excipients are inactive substances that serve as vehicles or mediums for the active ingredients in medications. They make up the bulk of a pharmaceutical formulation and help to stabilize, preserve, and enhance the delivery of the active drug compound. Common examples of excipients include binders, fillers, coatings, disintegrants, flavors, sweeteners, and colors. While excipients are generally considered safe and inert, they can sometimes cause allergic reactions or other adverse effects in certain individuals.

Solubility is a fundamental concept in pharmaceutical sciences and medicine, which refers to the maximum amount of a substance (solute) that can be dissolved in a given quantity of solvent (usually water) at a specific temperature and pressure. Solubility is typically expressed as mass of solute per volume or mass of solvent (e.g., grams per liter, milligrams per milliliter). The process of dissolving a solute in a solvent results in a homogeneous solution where the solute particles are dispersed uniformly throughout the solvent.

Understanding the solubility of drugs is crucial for their formulation, administration, and therapeutic effectiveness. Drugs with low solubility may not dissolve sufficiently to produce the desired pharmacological effect, while those with high solubility might lead to rapid absorption and short duration of action. Therefore, optimizing drug solubility through various techniques like particle size reduction, salt formation, or solubilization is an essential aspect of drug development and delivery.

Bone cements are medical-grade materials used in orthopedic and trauma surgery to fill gaps between bone surfaces and implants, such as artificial joints or screws. They serve to mechanically stabilize the implant and provide a smooth, load-bearing surface. The two most common types of bone cement are:

1. Polymethylmethacrylate (PMMA) cement: This is a two-component system consisting of powdered PMMA and liquid methyl methacrylate monomer. When mixed together, they form a dough-like consistency that hardens upon exposure to air. PMMA cement has been widely used for decades in joint replacement surgeries, such as hip or knee replacements.
2. Calcium phosphate (CP) cement: This is a two-component system consisting of a powdered CP compound and an aqueous solution. When mixed together, they form a paste that hardens through a chemical reaction at body temperature. CP cement has lower mechanical strength compared to PMMA but demonstrates better biocompatibility, bioactivity, and the ability to resorb over time.

Both types of bone cements have advantages and disadvantages, and their use depends on the specific surgical indication and patient factors.

Medical definitions of water generally describe it as a colorless, odorless, tasteless liquid that is essential for all forms of life. It is a universal solvent, making it an excellent medium for transporting nutrients and waste products within the body. Water constitutes about 50-70% of an individual's body weight, depending on factors such as age, sex, and muscle mass.

In medical terms, water has several important functions in the human body:

1. Regulation of body temperature through perspiration and respiration.
2. Acting as a lubricant for joints and tissues.
3. Facilitating digestion by helping to break down food particles.
4. Transporting nutrients, oxygen, and waste products throughout the body.
5. Helping to maintain healthy skin and mucous membranes.
6. Assisting in the regulation of various bodily functions, such as blood pressure and heart rate.

Dehydration can occur when an individual does not consume enough water or loses too much fluid due to illness, exercise, or other factors. This can lead to a variety of symptoms, including dry mouth, fatigue, dizziness, and confusion. Severe dehydration can be life-threatening if left untreated.

Scanning electron microscopy (SEM) is a type of electron microscopy that uses a focused beam of electrons to scan the surface of a sample and produce a high-resolution image. In SEM, a beam of electrons is scanned across the surface of a specimen, and secondary electrons are emitted from the sample due to interactions between the electrons and the atoms in the sample. These secondary electrons are then detected by a detector and used to create an image of the sample's surface topography. SEM can provide detailed images of the surface of a wide range of materials, including metals, polymers, ceramics, and biological samples. It is commonly used in materials science, biology, and electronics for the examination and analysis of surfaces at the micro- and nanoscale.

Pharmaceutical chemistry is a branch of chemistry that deals with the design, synthesis, and development of chemical entities used as medications. It involves the study of drugs' physical, chemical, and biological properties, as well as their interactions with living organisms. This field also encompasses understanding the absorption, distribution, metabolism, and excretion (ADME) of drugs in the body, which are critical factors in drug design and development. Pharmaceutical chemists often work closely with biologists, medical professionals, and engineers to develop new medications and improve existing ones.

An antigen-antibody complex is a type of immune complex that forms when an antibody binds to a specific antigen. An antigen is any substance that triggers an immune response, while an antibody is a protein produced by the immune system to neutralize or destroy foreign substances like antigens.

When an antibody binds to an antigen, it forms a complex that can be either soluble or insoluble. Soluble complexes are formed when the antigen is small and can move freely through the bloodstream. Insoluble complexes, on the other hand, are formed when the antigen is too large to move freely, such as when it is part of a bacterium or virus.

The formation of antigen-antibody complexes plays an important role in the immune response. Once formed, these complexes can be recognized and cleared by other components of the immune system, such as phagocytes, which help to prevent further damage to the body. However, in some cases, the formation of large numbers of antigen-antibody complexes can lead to inflammation and tissue damage, contributing to the development of certain autoimmune diseases.

Constipation is a condition characterized by infrequent bowel movements or difficulty in passing stools that are often hard and dry. The medical definition of constipation varies, but it is generally defined as having fewer than three bowel movements in a week. In addition to infrequent bowel movements, other symptoms of constipation can include straining during bowel movements, feeling like you haven't completely evacuated your bowels, and experiencing hard or lumpy stools.

Constipation can have many causes, including a low-fiber diet, dehydration, certain medications, lack of physical activity, and underlying medical conditions such as irritable bowel syndrome or hypothyroidism. In most cases, constipation can be treated with lifestyle changes, such as increasing fiber intake, drinking more water, and getting regular exercise. However, if constipation is severe, persistent, or accompanied by other symptoms, it's important to seek medical attention to rule out any underlying conditions that may require treatment.

Drug delivery systems (DDS) refer to techniques or technologies that are designed to improve the administration of a pharmaceutical compound in terms of its efficiency, safety, and efficacy. A DDS can modify the drug release profile, target the drug to specific cells or tissues, protect the drug from degradation, and reduce side effects.

The goal of a DDS is to optimize the bioavailability of a drug, which is the amount of the drug that reaches the systemic circulation and is available at the site of action. This can be achieved through various approaches, such as encapsulating the drug in a nanoparticle or attaching it to a biomolecule that targets specific cells or tissues.

Some examples of DDS include:

1. Controlled release systems: These systems are designed to release the drug at a controlled rate over an extended period, reducing the frequency of dosing and improving patient compliance.
2. Targeted delivery systems: These systems use biomolecules such as antibodies or ligands to target the drug to specific cells or tissues, increasing its efficacy and reducing side effects.
3. Nanoparticle-based delivery systems: These systems use nanoparticles made of polymers, lipids, or inorganic materials to encapsulate the drug and protect it from degradation, improve its solubility, and target it to specific cells or tissues.
4. Biodegradable implants: These are small devices that can be implanted under the skin or into body cavities to deliver drugs over an extended period. They can be made of biodegradable materials that gradually break down and release the drug.
5. Inhalation delivery systems: These systems use inhalers or nebulizers to deliver drugs directly to the lungs, bypassing the digestive system and improving bioavailability.

Overall, DDS play a critical role in modern pharmaceutical research and development, enabling the creation of new drugs with improved efficacy, safety, and patient compliance.

Therapeutic irrigation, also known as lavage, is a medical procedure that involves the introduction of fluids or other agents into a body cavity or natural passageway for therapeutic purposes. This technique is used to cleanse, flush out, or introduce medication into various parts of the body, such as the bladder, lungs, stomach, or colon.

The fluid used in therapeutic irrigation can be sterile saline solution, distilled water, or a medicated solution, depending on the specific purpose of the procedure. The flow and pressure of the fluid are carefully controlled to ensure that it reaches the desired area without causing damage to surrounding tissues.

Therapeutic irrigation is used to treat a variety of medical conditions, including infections, inflammation, obstructions, and toxic exposures. It can also be used as a diagnostic tool to help identify abnormalities or lesions within body cavities.

Overall, therapeutic irrigation is a valuable technique in modern medicine that allows healthcare providers to deliver targeted treatment directly to specific areas of the body, improving patient outcomes and quality of life.

An artificial eye, also known as a prosthetic eye, is a type of medical device that is used to replace a natural eye that has been removed or is not functional due to injury, disease, or congenital abnormalities. It is typically made of acrylic or glass and is custom-made to match the size, shape, and color of the patient's other eye as closely as possible.

The artificial eye is designed to fit over the eye socket and rest on the eyelids, allowing the person to have a more natural appearance and improve their ability to blink and close their eye. It does not restore vision, but it can help protect the eye socket and improve the patient's self-esteem and quality of life.

The process of fitting an artificial eye typically involves several appointments with an ocularist, who is a healthcare professional trained in the measurement, design, and fabrication of prosthetic eyes. The ocularist will take impressions of the eye socket, create a model, and then use that model to make the artificial eye. Once the artificial eye is made, the ocularist will fit it and make any necessary adjustments to ensure that it is comfortable and looks natural.

X-ray diffraction (XRD) is not strictly a medical definition, but it is a technique commonly used in the field of medical research and diagnostics. XRD is a form of analytical spectroscopy that uses the phenomenon of X-ray diffraction to investigate the crystallographic structure of materials. When a beam of X-rays strikes a crystal, it is scattered in specific directions and with specific intensities that are determined by the arrangement of atoms within the crystal. By measuring these diffraction patterns, researchers can determine the crystal structures of various materials, including biological macromolecules such as proteins and viruses.

In the medical field, XRD is often used to study the structure of drugs and drug candidates, as well as to analyze the composition and structure of tissues and other biological samples. For example, XRD can be used to investigate the crystal structures of calcium phosphate minerals in bone tissue, which can provide insights into the mechanisms of bone formation and disease. Additionally, XRD is sometimes used in the development of new medical imaging techniques, such as phase-contrast X-ray imaging, which has the potential to improve the resolution and contrast of traditional X-ray images.

A foreign-body reaction is an immune response that occurs when a non-native substance, or "foreign body," is introduced into the human body. This can include things like splinters, surgical implants, or even injected medications. The immune system recognizes these substances as foreign and mounts a response to try to eliminate them.

The initial response to a foreign body is often an acute inflammatory reaction, characterized by the release of chemical mediators that cause vasodilation, increased blood flow, and the migration of white blood cells to the site. This can result in symptoms such as redness, swelling, warmth, and pain.

If the foreign body is not eliminated, a chronic inflammatory response may develop, which can lead to the formation of granulation tissue, fibrosis, and encapsulation of the foreign body. In some cases, this reaction can cause significant tissue damage or impede proper healing.

It's worth noting that not all foreign bodies necessarily elicit a strong immune response. The nature and size of the foreign body, as well as its location in the body, can all influence the severity of the reaction.

"Wettability" is not a term that has a specific medical definition. It is a term that is more commonly used in the fields of chemistry, physics, and materials science to describe how well a liquid spreads on a solid surface. In other words, it refers to the ability of a liquid to maintain contact with a solid surface, which can have implications for various medical applications such as the design of medical devices or the study of biological surfaces. However, it is not a term that would typically be used in a clinical medical context.

Sterilization, in a medical context, refers to the process of eliminating or removing all forms of microbial life, including fungi, bacteria, viruses, spores, and any other biological agents from a surface, object, or environment. This is typically achieved through various methods such as heat (using autoclaves), chemical processes, irradiation, or filtration.

In addition, sterilization can also refer to the surgical procedure that renders individuals unable to reproduce. This is often referred to as "permanent contraception" and can be performed through various methods such as vasectomy for men and tubal ligation for women. It's important to note that these procedures are typically permanent and not easily reversible.

Adsorption is a process in which atoms, ions, or molecules from a gas, liquid, or dissolved solid accumulate on the surface of a material. This occurs because the particles in the adsorbate (the substance being adsorbed) have forces that attract them to the surface of the adsorbent (the material that the adsorbate is adhering to).

In medical terms, adsorption can refer to the use of materials with adsorptive properties to remove harmful substances from the body. For example, activated charcoal is sometimes used in the treatment of poisoning because it can adsorb a variety of toxic substances and prevent them from being absorbed into the bloodstream.

It's important to note that adsorption is different from absorption, which refers to the process by which a substance is taken up and distributed throughout a material or tissue.

Lactulose is a synthetic disaccharide, specifically a non-absorbable sugar, used in the treatment of chronic constipation and hepatic encephalopathy. It works as an osmotic laxative by drawing water into the large intestine, promoting bowel movements and softening stool. In the case of hepatic encephalopathy, lactulose is metabolized by colonic bacteria to produce acidic byproducts that lower the pH in the gut, which helps prevent the absorption of harmful substances like ammonia into the bloodstream.

Arthroplasty, replacement, knee is a surgical procedure where the damaged or diseased joint surface of the knee is removed and replaced with an artificial joint or prosthesis. The procedure involves resurfacing the worn-out ends of the femur (thigh bone) and tibia (shin bone) with metal components, and the back of the kneecap with a plastic button. This surgery is usually performed to relieve pain and restore function in patients with severe knee osteoarthritis, rheumatoid arthritis, or traumatic injuries that have damaged the joint beyond repair. The goal of knee replacement surgery is to improve mobility, reduce pain, and enhance the quality of life for the patient.

Surfactants, also known as surface-active agents, are amphiphilic compounds that reduce the surface tension between two liquids or between a liquid and a solid. They contain both hydrophilic (water-soluble) and hydrophobic (water-insoluble) components in their molecular structure. This unique property allows them to interact with and stabilize interfaces, making them useful in various medical and healthcare applications.

In the medical field, surfactants are commonly used in pulmonary medicine, particularly for treating respiratory distress syndrome (RDS) in premature infants. The lungs of premature infants often lack sufficient amounts of natural lung surfactant, which can lead to RDS and other complications. Exogenous surfactants, derived from animal sources or synthetically produced, are administered to replace the missing or dysfunctional lung surfactant, improving lung compliance and gas exchange.

Surfactants also have applications in topical formulations for dermatology, as they can enhance drug penetration into the skin, reduce irritation, and improve the spreadability of creams and ointments. Additionally, they are used in diagnostic imaging to enhance contrast between tissues and improve visualization during procedures such as ultrasound and X-ray examinations.

Drug compounding is the process of combining, mixing, or altering ingredients to create a customized medication to meet the specific needs of an individual patient. This can be done for a variety of reasons, such as when a patient has an allergy to a certain ingredient in a mass-produced medication, or when a patient requires a different dosage or formulation than what is available commercially.

Compounding requires specialized training and equipment, and compounding pharmacists must follow strict guidelines to ensure the safety and efficacy of the medications they produce. Compounded medications are not approved by the U.S. Food and Drug Administration (FDA), but the FDA does regulate the ingredients used in compounding and has oversight over the practices of compounding pharmacies.

It's important to note that while compounding can provide benefits for some patients, it also carries risks, such as the potential for contamination or incorrect dosing. Patients should only receive compounded medications from reputable pharmacies that follow proper compounding standards and procedures.

Tannins, also known as tannic acid or gallotannins, are a type of polyphenolic biomolecule found in plants. They are most commonly known for their ability to bind to proteins and other organic compounds, forming insoluble complexes. This property is what gives tannins their characteristic astringent taste and is also the basis for their use in traditional medicine and industry.

In the context of human health, tannins have been studied for their potential beneficial effects on various physiological processes, such as antioxidant activity, anti-inflammatory effects, and inhibition of enzymes involved in cancer development. However, excessive consumption of tannins can also have negative health effects, including stomach irritation, nausea, and liver damage.

Tannins are found in a wide variety of plants, including fruits, vegetables, grains, nuts, bark, leaves, and roots. They are particularly abundant in certain types of food and beverages, such as red wine, tea, coffee, chocolate, and some herbs and spices. In the medical field, tannins have been used topically for their astringent properties to treat wounds, burns, and skin irritations. However, it is important to note that the evidence supporting the health benefits of tannins is still limited and more research is needed to fully understand their effects on human health.

A granuloma is a type of organized immune response that occurs when the body encounters a foreign substance that it cannot eliminate. A "foreign-body" granuloma specifically refers to this reaction in response to an exogenous material, such as a splinter, suture, or other types of medical implants.

Foreign-body granulomas are characterized by the formation of a collection of immune cells, including macrophages and lymphocytes, which surround and attempt to isolate the foreign material. Over time, this collection of immune cells can become walled off and form a well-circumscribed mass or nodule.

Foreign-body granulomas may cause localized symptoms such as pain, swelling, or inflammation, depending on their location and size. In some cases, they may also lead to complications such as infection or tissue damage. Treatment typically involves removing the foreign body, if possible, followed by anti-inflammatory therapy to manage any residual symptoms or complications.

In the medical field, cementation refers to the process of using a type of dental cement or bonding agent to attach a dental restoration (such as a crown, bridge, or false tooth) to a natural tooth or implant. The cement helps to create a strong and secure attachment, while also helping to seal the restoration and prevent the entry of bacteria and saliva.

Dental cement can be made from various materials, including glass ionomers, resin-modified glass ionomers, zinc phosphate, and polycarboxylate cements. The choice of cement depends on several factors, such as the type of restoration being attached, the location in the mouth, and the patient's individual needs and preferences.

Cementation is an important step in many dental procedures, as it helps to ensure the longevity and success of the restoration. Proper technique and material selection are crucial for achieving a successful cementation that will last for years to come.

A protoplast is not a term that is typically used in medical definitions, but rather it is a term commonly used in cell biology and botany. A protoplast refers to a plant or bacterial cell that has had its cell wall removed, leaving only the plasma membrane and the cytoplasmic contents, including organelles such as mitochondria, chloroplasts, ribosomes, and other cellular structures.

Protoplasts can be created through enzymatic or mechanical means to isolate the intracellular components for various research purposes, such as studying membrane transport, gene transfer, or cell fusion. In some cases, protoplasts may be used in medical research, particularly in areas related to plant pathology and genetic engineering of plants for medical applications.

A colonoscopy is a medical procedure used to examine the large intestine, also known as the colon and rectum. It is performed using a flexible tube with a tiny camera on the end, called a colonoscope, which is inserted into the rectum and gently guided through the entire length of the colon.

The procedure allows doctors to visually inspect the lining of the colon for any abnormalities such as polyps, ulcers, inflammation, or cancer. If any polyps are found during the procedure, they can be removed immediately using special tools passed through the colonoscope. Colonoscopy is an important tool in the prevention and early detection of colorectal cancer, which is one of the leading causes of cancer-related deaths worldwide.

Patients are usually given a sedative to help them relax during the procedure, which is typically performed on an outpatient basis in a hospital or clinic setting. The entire procedure usually takes about 30-60 minutes to complete, although patients should plan to spend several hours at the medical facility for preparation and recovery.

Laxatives are substances or medications that are used to promote bowel movements or loosen the stools, thereby helping in the treatment of constipation. They work by increasing the amount of water in the stool or stimulating the muscles in the intestines to contract and push the stool through. Laxatives can be categorized into several types based on their mechanism of action, including bulk-forming laxatives, lubricant laxatives, osmotic laxatives, saline laxatives, stimulant laxatives, and stool softeners. It is important to use laxatives only as directed by a healthcare professional, as overuse or misuse can lead to serious health complications.

Magnesium oxide is an inorganic compound with the chemical formula MgO. It is a white, odorless solid that is highly basic and stable. Medically, magnesium oxide is used as a dietary supplement to prevent or treat low amounts of magnesium in the blood. It is also used as a antacid to neutralize stomach acid and as a laxative to relieve constipation.

Titanium is not a medical term, but rather a chemical element (symbol Ti, atomic number 22) that is widely used in the medical field due to its unique properties. Medically, it is often referred to as a biocompatible material used in various medical applications such as:

1. Orthopedic implants: Titanium and its alloys are used for making joint replacements (hips, knees, shoulders), bone plates, screws, and rods due to their high strength-to-weight ratio, excellent corrosion resistance, and biocompatibility.
2. Dental implants: Titanium is also commonly used in dental applications like implants, crowns, and bridges because of its ability to osseointegrate, or fuse directly with bone tissue, providing a stable foundation for replacement teeth.
3. Cardiovascular devices: Titanium alloys are used in the construction of heart valves, pacemakers, and other cardiovascular implants due to their non-magnetic properties, which prevent interference with magnetic resonance imaging (MRI) scans.
4. Medical instruments: Due to its resistance to corrosion and high strength, titanium is used in the manufacturing of various medical instruments such as surgical tools, needles, and catheters.

In summary, Titanium is a chemical element with unique properties that make it an ideal material for various medical applications, including orthopedic and dental implants, cardiovascular devices, and medical instruments.

Hydrogels are defined in the medical and biomedical fields as cross-linked, hydrophilic polymer networks that have the ability to swell and retain a significant amount of water or biological fluids while maintaining their structure. They can be synthesized from natural, synthetic, or hybrid polymers.

Hydrogels are known for their biocompatibility, high water content, and soft consistency, which resemble natural tissues, making them suitable for various medical applications such as contact lenses, drug delivery systems, tissue engineering, wound dressing, and biosensors. The physical and chemical properties of hydrogels can be tailored to specific uses by adjusting the polymer composition, cross-linking density, and network structure.

In the field of medicine, "time factors" refer to the duration of symptoms or time elapsed since the onset of a medical condition, which can have significant implications for diagnosis and treatment. Understanding time factors is crucial in determining the progression of a disease, evaluating the effectiveness of treatments, and making critical decisions regarding patient care.

For example, in stroke management, "time is brain," meaning that rapid intervention within a specific time frame (usually within 4.5 hours) is essential to administering tissue plasminogen activator (tPA), a clot-busting drug that can minimize brain damage and improve patient outcomes. Similarly, in trauma care, the "golden hour" concept emphasizes the importance of providing definitive care within the first 60 minutes after injury to increase survival rates and reduce morbidity.

Time factors also play a role in monitoring the progression of chronic conditions like diabetes or heart disease, where regular follow-ups and assessments help determine appropriate treatment adjustments and prevent complications. In infectious diseases, time factors are crucial for initiating antibiotic therapy and identifying potential outbreaks to control their spread.

Overall, "time factors" encompass the significance of recognizing and acting promptly in various medical scenarios to optimize patient outcomes and provide effective care.

I'm sorry for any confusion, but "friction" is not a term that has a specific medical definition. Friction is a physical concept that describes the force that resists the sliding of one surface over another. It is commonly described as the "roughness" between two surfaces. While friction can have effects on various biological processes and medical devices, it does not have a unique medical meaning in and of itself.

Anhydrides are chemical compounds that form when a single molecule of water is removed from an acid, resulting in the formation of a new compound. The term "anhydride" comes from the Greek words "an," meaning without, and "hydor," meaning water.

In organic chemistry, anhydrides are commonly formed by the removal of water from a carboxylic acid. For example, when acetic acid (CH3COOH) loses a molecule of water, it forms acetic anhydride (CH3CO)2O. Acetic anhydride is a reactive compound that can be used to introduce an acetyl group (-COCH3) into other organic compounds.

Inorganic anhydrides are also important in chemistry and include compounds such as sulfur trioxide (SO3), which is an anhydride of sulfuric acid (H2SO4). Sulfur trioxide can react with water to form sulfuric acid, making it a key intermediate in the production of this important industrial chemical.

It's worth noting that some anhydrides can be hazardous and may require special handling and safety precautions.

Arthroplasty, replacement, is a surgical procedure where a damaged or diseased joint surface is removed and replaced with an artificial implant or device. The goal of this surgery is to relieve pain, restore function, and improve the quality of life for patients who have severe joint damage due to arthritis or other conditions.

During the procedure, the surgeon removes the damaged cartilage and bone from the joint and replaces them with a metal, plastic, or ceramic component that replicates the shape and function of the natural joint surface. The most common types of joint replacement surgery are hip replacement, knee replacement, and shoulder replacement.

The success rate of joint replacement surgery is generally high, with many patients experiencing significant pain relief and improved mobility. However, as with any surgical procedure, there are risks involved, including infection, blood clots, implant loosening or failure, and nerve damage. Therefore, it's essential to discuss the potential benefits and risks of joint replacement surgery with a healthcare provider before making a decision.

Ethylene oxide is a colorless gas at room temperature and pressure with a faintly sweet odor. It is used primarily as a sterilant, especially for medical equipment, but also has applications in the manufacture of other chemicals, including antifreeze and textile products. Ethylene oxide is highly flammable and reactive, and exposure can cause irritation to the eyes, skin, and respiratory tract, as well as more serious health effects with prolonged or high-level exposure. It is also a known human carcinogen, meaning that it has been shown to cause cancer in humans.

In the context of medical terminology, "porosity" is not a term that is frequently used to describe human tissues or organs. However, in dermatology and cosmetics, porosity refers to the ability of the skin to absorb and retain moisture or topical treatments.

A skin with high porosity has larger pores and can absorb more products, while a skin with low porosity has smaller pores and may have difficulty absorbing products. It is important to note that this definition of porosity is not a medical one but is instead used in the beauty industry.

Polyethyleneimine (PEI) is not a medical term per se, but a chemical compound that is used in various medical and biomedical applications. Therefore, I will provide you with a chemical definition of PEI:

Polyethyleneimine (PEI) is a synthetic polymer consisting of repeating units of ethylene imine (-CH2-CH2-NH-). It is available in various forms, including linear and branched structures, depending on the synthesis method. The amine groups in PEI can be protonated (positively charged) under acidic conditions, making it a cationic polymer. This property allows PEI to interact strongly with negatively charged molecules such as DNA, RNA, and cell membranes, which is the basis for its use in gene delivery, drug delivery, and as a flocculant in water treatment.

Dextrans are a type of complex glucose polymers that are formed by the action of certain bacteria on sucrose. They are branched polysaccharides consisting of linear chains of α-1,6 linked D-glucopyranosyl units with occasional α-1,3 branches.

Dextrans have a wide range of applications in medicine and industry. In medicine, dextrans are used as plasma substitutes, volume expanders, and anticoagulants. They are also used as carriers for drugs and diagnostic agents, and in the manufacture of immunoadsorbents for the removal of toxins and pathogens from blood.

Dextrans can be derived from various bacterial sources, but the most common commercial source is Leuconostoc mesenteroides B-512(F) or L. dextranicum. The molecular weight of dextrans can vary widely, ranging from a few thousand to several million Daltons, depending on the method of preparation and purification.

Dextrans are generally biocompatible and non-toxic, but they can cause allergic reactions in some individuals. Therefore, their use as medical products requires careful monitoring and testing for safety and efficacy.

Mechanical stress, in the context of physiology and medicine, refers to any type of force that is applied to body tissues or organs, which can cause deformation or displacement of those structures. Mechanical stress can be either external, such as forces exerted on the body during physical activity or trauma, or internal, such as the pressure changes that occur within blood vessels or other hollow organs.

Mechanical stress can have a variety of effects on the body, depending on the type, duration, and magnitude of the force applied. For example, prolonged exposure to mechanical stress can lead to tissue damage, inflammation, and chronic pain. Additionally, abnormal or excessive mechanical stress can contribute to the development of various musculoskeletal disorders, such as tendinitis, osteoarthritis, and herniated discs.

In order to mitigate the negative effects of mechanical stress, the body has a number of adaptive responses that help to distribute forces more evenly across tissues and maintain structural integrity. These responses include changes in muscle tone, joint positioning, and connective tissue stiffness, as well as the remodeling of bone and other tissues over time. However, when these adaptive mechanisms are overwhelmed or impaired, mechanical stress can become a significant factor in the development of various pathological conditions.

I'm sorry for any confusion, but "Polypropylenes" does not have a medical definition as it is not a medical term. Polypropylene is a type of plastic that is used in various medical and non-medical applications. It is a thermoplastic polymer resin that is produced by the polymerization of propylene.

In the medical field, polypropylene is sometimes used to make single-use surgical instruments, sutures, and medical devices due to its resistance to heat, chemicals, and electricity. It is also biocompatible, meaning it can be safely used in the body without causing adverse reactions. However, "Polypropylenes" as a medical term is not recognized or used in the medical community.

Drug stability refers to the ability of a pharmaceutical drug product to maintain its physical, chemical, and biological properties during storage and use, under specified conditions. A stable drug product retains its desired quality, purity, strength, and performance throughout its shelf life. Factors that can affect drug stability include temperature, humidity, light exposure, and container compatibility. Maintaining drug stability is crucial to ensure the safety and efficacy of medications for patients.

Osteoarthritis (OA) of the hip is a degenerative joint disease that affects the articular cartilage and subchondral bone of the hip joint. It is characterized by the progressive loss of cartilage, remodeling of bone, osteophyte formation (bone spurs), cysts, and mild to moderate inflammation. The degenerative process can lead to pain, stiffness, limited range of motion, and crepitus (grating or crackling sound) during movement.

In the hip joint, OA typically affects the femoral head and acetabulum. As the articular cartilage wears away, the underlying bone becomes exposed and can lead to bone-on-bone contact, which is painful. The body responds by attempting to repair the damage through remodeling of the subchondral bone and formation of osteophytes. However, these changes can further limit joint mobility and exacerbate symptoms.

Risk factors for OA of the hip include age, obesity, genetics, previous joint injury or surgery, and repetitive stress on the joint. Treatment options may include pain management (such as NSAIDs, physical therapy, and injections), lifestyle modifications (such as weight loss and exercise), and, in severe cases, surgical intervention (such as hip replacement).

Nephelometry and turbidimetry are methods used in clinical laboratories to measure the amount of particles, such as proteins or cells, present in a liquid sample. The main difference between these two techniques lies in how they detect and quantify the particles.

1. Nephelometry: This is a laboratory method that measures the amount of light scattered by suspended particles in a liquid medium at a 90-degree angle to the path of the incident light. When light passes through a sample containing particles, some of the light is absorbed, while some is scattered in various directions. In nephelometry, a light beam is shone into the sample, and a detector measures the intensity of the scattered light at a right angle to the light source. The more particles present in the sample, the higher the intensity of scattered light, which correlates with the concentration of particles in the sample. Nephelometry is often used to measure the levels of immunoglobulins, complement components, and other proteins in serum or plasma.

2. Turbidimetry: This is another laboratory method that measures the amount of light blocked or absorbed by suspended particles in a liquid medium. In turbidimetry, a light beam is shone through the sample, and the intensity of the transmitted light is measured. The more particles present in the sample, the more light is absorbed or scattered, resulting in lower transmitted light intensity. Turbidimetric measurements are typically reported as percent transmittance, which is the ratio of the intensity of transmitted light to that of the incident light expressed as a percentage. Turbidimetry can be used to measure various substances, such as proteins, cells, and crystals, in body fluids like urine, serum, or plasma.

In summary, nephelometry measures the amount of scattered light at a 90-degree angle, while turbidimetry quantifies the reduction in transmitted light intensity due to particle presence. Both methods are useful for determining the concentration of particles in liquid samples and are commonly used in clinical laboratories for diagnostic purposes.

Molecular weight, also known as molecular mass, is the mass of a molecule. It is expressed in units of atomic mass units (amu) or daltons (Da). Molecular weight is calculated by adding up the atomic weights of each atom in a molecule. It is a useful property in chemistry and biology, as it can be used to determine the concentration of a substance in a solution, or to calculate the amount of a substance that will react with another in a chemical reaction.

Prosthesis implantation is a surgical procedure where an artificial device or component, known as a prosthesis, is placed inside the body to replace a missing or damaged body part. The prosthesis can be made from various materials such as metal, plastic, or ceramic and is designed to perform the same function as the original body part.

The implantation procedure involves making an incision in the skin to create a pocket where the prosthesis will be placed. The prosthesis is then carefully positioned and secured in place using screws, cement, or other fixation methods. In some cases, tissue from the patient's own body may be used to help anchor the prosthesis.

Once the prosthesis is in place, the incision is closed with sutures or staples, and the area is bandaged. The patient will typically need to undergo rehabilitation and physical therapy to learn how to use the new prosthesis and regain mobility and strength.

Prosthesis implantation is commonly performed for a variety of reasons, including joint replacement due to arthritis or injury, dental implants to replace missing teeth, and breast reconstruction after mastectomy. The specific procedure and recovery time will depend on the type and location of the prosthesis being implanted.

Electrolytes are substances that, when dissolved in water, break down into ions that can conduct electricity. In the body, electrolytes are responsible for regulating various important physiological functions, including nerve and muscle function, maintaining proper hydration and acid-base balance, and helping to repair tissue damage.

The major electrolytes found in the human body include sodium, potassium, chloride, bicarbonate, calcium, magnesium, and phosphate. These electrolytes are tightly regulated by various mechanisms, including the kidneys, which help to maintain their proper balance in the body.

When there is an imbalance of electrolytes in the body, it can lead to a range of symptoms and health problems. For example, low levels of sodium (hyponatremia) can cause confusion, seizures, and even coma, while high levels of potassium (hyperkalemia) can lead to heart arrhythmias and muscle weakness.

Electrolytes are also lost through sweat during exercise or illness, so it's important to replace them through a healthy diet or by drinking fluids that contain electrolytes, such as sports drinks or coconut water. In some cases, electrolyte imbalances may require medical treatment, such as intravenous (IV) fluids or medication.

Cell fusion is the process by which two or more cells combine to form a single cell with a single nucleus, containing the genetic material from all of the original cells. This can occur naturally in certain biological processes, such as fertilization (when a sperm and egg cell fuse to form a zygote), muscle development (where multiple muscle precursor cells fuse together to create multinucleated muscle fibers), and during the formation of bone (where osteoclasts, the cells responsible for breaking down bone tissue, are multinucleated).

Cell fusion can also be induced artificially in laboratory settings through various methods, including chemical treatments, electrical stimulation, or viral vectors. Induced cell fusion is often used in research to create hybrid cells with unique properties, such as cybrid cells (cytoplasmic hybrids) and heterokaryons (nuclear hybrids). These hybrid cells can help scientists study various aspects of cell biology, genetics, and disease mechanisms.

In summary, cell fusion is the merging of two or more cells into one, resulting in a single cell with combined genetic material. This process occurs naturally during certain biological processes and can be induced artificially for research purposes.

Solvents, in a medical context, are substances that are capable of dissolving or dispersing other materials, often used in the preparation of medications and solutions. They are commonly organic chemicals that can liquefy various substances, making it possible to administer them in different forms, such as oral solutions, topical creams, or injectable drugs.

However, it is essential to recognize that solvents may pose health risks if mishandled or misused, particularly when they contain volatile organic compounds (VOCs). Prolonged exposure to these VOCs can lead to adverse health effects, including respiratory issues, neurological damage, and even cancer. Therefore, it is crucial to handle solvents with care and follow safety guidelines to minimize potential health hazards.

Corrosion is a process of deterioration or damage to a material, usually a metal, caused by chemical reactions with its environment. In the medical context, corrosion may refer to the breakdown and destruction of living tissue due to exposure to harsh substances or environmental conditions. This can occur in various parts of the body, such as the skin, mouth, or gastrointestinal tract, and can be caused by factors like acid reflux, infection, or exposure to chemicals.

In the case of medical devices made of metal, corrosion can also refer to the degradation of the device due to chemical reactions with bodily fluids or tissues. This can compromise the function and safety of the device, potentially leading to complications or failure. Therefore, understanding and preventing corrosion is an important consideration in the design and use of medical devices made of metal.

I'm sorry for any confusion, but "Polyesters" is not a medical term. It is a term used in materials science and textile industry to describe a type of synthetic fiber made from polymers characterized by the presence of ester groups in their main chain. If you have any questions related to medical terminology or concepts, I'd be happy to help with those instead!

"Awards and prizes" in a medical context generally refer to recognitions given to individuals or organizations for significant achievements, contributions, or advancements in the field of medicine. These can include:

1. Research Awards: Given to researchers who have made significant breakthroughs or discoveries in medical research.
2. Lifetime Achievement Awards: Recognizing individuals who have dedicated their lives to advancing medicine and healthcare.
3. Humanitarian Awards: Presented to those who have provided exceptional service to improving the health and well-being of underserved populations.
4. Innovation Awards: Given to recognize groundbreaking new treatments, technologies, or approaches in medicine.
5. Educator Awards: Honoring medical educators for their contributions to teaching and mentoring future healthcare professionals.
6. Patient Care Awards: Recognizing excellence in patient care and advocacy.
7. Public Health Awards: Given for outstanding work in preventing disease and promoting health at the population level.
8. Global Health Awards: Honoring those who have made significant contributions to improving health outcomes in low-resource settings around the world.

These awards can be given by various organizations, including medical societies, hospitals, universities, pharmaceutical companies, and government agencies.

Nanomedicine is a branch of medicine that utilizes nanotechnology, which deals with materials, devices, or systems at the nanometer scale (typically between 1-100 nm), to prevent and treat diseases. It involves the development of novel therapeutics, diagnostics, and medical devices that can interact with biological systems at the molecular level for improved detection, monitoring, and targeted treatment of various diseases and conditions.

Nanomedicine encompasses several areas, including:

1. Drug delivery: Nanocarriers such as liposomes, polymeric nanoparticles, dendrimers, and inorganic nanoparticles can be used to encapsulate drugs, enhancing their solubility, stability, and targeted delivery to specific cells or tissues, thereby reducing side effects.
2. Diagnostics: Nanoscale biosensors and imaging agents can provide early detection and monitoring of diseases with high sensitivity and specificity, enabling personalized medicine and improved patient outcomes.
3. Regenerative medicine: Nanomaterials can be used to create scaffolds and matrices for tissue engineering, promoting cell growth, differentiation, and vascularization in damaged or diseased tissues.
4. Gene therapy: Nanoparticles can be employed to deliver genetic material such as DNA, RNA, or gene-editing tools (e.g., CRISPR-Cas9) for the targeted correction of genetic disorders or cancer treatment.
5. Medical devices: Nanotechnology can improve the performance and functionality of medical devices by enhancing their biocompatibility, strength, and electrical conductivity, as well as incorporating sensing and drug delivery capabilities.

Overall, nanomedicine holds great promise for addressing unmet medical needs, improving diagnostic accuracy, and developing more effective therapies with reduced side effects. However, it also presents unique challenges related to safety, regulation, and scalability that must be addressed before widespread clinical adoption.

Fourier Transform Infrared (FTIR) spectroscopy is a type of infrared spectroscopy that uses the Fourier transform mathematical technique to convert the raw data obtained from an interferometer into a more interpretable spectrum. This technique allows for the simultaneous collection of a wide range of wavelengths, resulting in increased sensitivity and speed compared to traditional dispersive infrared spectroscopy.

FTIR spectroscopy measures the absorption or transmission of infrared radiation by a sample as a function of frequency, providing information about the vibrational modes of the molecules present in the sample. This can be used for identification and quantification of chemical compounds, analysis of molecular structure, and investigation of chemical interactions and reactions.

In summary, FTIR spectroscopy is a powerful analytical technique that uses infrared radiation to study the vibrational properties of molecules, with increased sensitivity and speed due to the use of Fourier transform mathematical techniques and an interferometer.

Micelles are structures formed in a solution when certain substances, such as surfactants, reach a critical concentration called the critical micelle concentration (CMC). At this concentration, these molecules, which have both hydrophilic (water-attracting) and hydrophobic (water-repelling) components, arrange themselves in a spherical shape with the hydrophilic parts facing outward and the hydrophobic parts clustered inside. This formation allows the hydrophobic components to avoid contact with water while the hydrophilic components interact with it. Micelles are important in various biological and industrial processes, such as drug delivery, soil remediation, and the formation of emulsions.

Complement activating enzymes are proteins that play a crucial role in the activation of the complement system, which is a part of the immune system. The complement system is a complex series of biochemical reactions that help to eliminate pathogens and damaged cells from the body.

There are several types of complement activating enzymes, including:

1. Classical pathway activators: These include the C1, C4, and C2 components of the complement system. When activated, they trigger a series of reactions that lead to the formation of the membrane attack complex (MAC), which creates a pore in the membrane of the target cell, leading to its lysis.
2. Alternative pathway activators: These include factors B, D, and P. They are constantly active at low levels and can be activated by surfaces that are not normally found in the body, such as bacterial cell walls. Once activated, they also trigger the formation of the MAC.
3. Lectin pathway activators: These include mannose-binding lectin (MBL) and ficolins. They bind to carbohydrates on the surface of microbes and activate the complement system through the MBL-associated serine proteases (MASPs).

Overall, complement activating enzymes play a critical role in the immune response by helping to identify and eliminate pathogens and damaged cells from the body.

I'm sorry for any confusion, but "Stainless Steel" is not a medical term. It is a type of steel that contains at least 10.5% chromium content by mass, and usually contains nickel as well. The chromium forms a passive film that protects the metal from corrosion and staining. Stainless steel is widely used in various industries including medicine, for example, in medical equipment and surgical instruments due to its resistance to rust and corrosion.

Cross-linking reagents are chemical agents that are used to create covalent bonds between two or more molecules, creating a network of interconnected molecules known as a cross-linked structure. In the context of medical and biological research, cross-linking reagents are often used to stabilize protein structures, study protein-protein interactions, and develop therapeutic agents.

Cross-linking reagents work by reacting with functional groups on adjacent molecules, such as amino groups (-NH2) or sulfhydryl groups (-SH), to form a covalent bond between them. This can help to stabilize protein structures and prevent them from unfolding or aggregating.

There are many different types of cross-linking reagents, each with its own specificity and reactivity. Some common examples include glutaraldehyde, formaldehyde, disuccinimidyl suberate (DSS), and bis(sulfosuccinimidyl) suberate (BS3). The choice of cross-linking reagent depends on the specific application and the properties of the molecules being cross-linked.

It is important to note that cross-linking reagents can also have unintended effects, such as modifying or disrupting the function of the proteins they are intended to stabilize. Therefore, it is essential to use them carefully and with appropriate controls to ensure accurate and reliable results.

Eye evisceration is a surgical procedure in which the contents of the eye are removed, leaving the sclera (the white part of the eye) and the eyelids intact. This procedure is typically performed to treat severe eye injuries or infections, as well as to alleviate pain in blind eyes. After the eye contents are removed, an orbital implant is placed in the eye socket to restore its shape and volume. The eyelids are then closed over the implant, creating a smooth appearance. It's important to note that although the eye appears to have some cosmetic normality after the procedure, vision cannot be restored.

Radiostereometric Analysis (RSA) is a highly accurate and precise method used in medical research and clinical practice to evaluate the motion, migration, or displacement of surgically implanted orthopedic devices such as joint prostheses, screws, or plates. It involves taking simultaneous biplanar X-ray images of the implant from two different angles using a calibration device for size and distance measurements. The resulting stereo images are then digitized and processed to create a 3D model that allows for precise measurement of even small movements of the implant relative to surrounding bone structures. This technique is particularly useful in studying implant stability, wear, and micromotion, which can help optimize surgical techniques and implant designs to improve patient outcomes.

Prostheses: Artificial substitutes or replacements for missing body parts, such as limbs, eyes, or teeth. They are designed to restore the function, appearance, or mobility of the lost part. Prosthetic devices can be categorized into several types, including:

1. External prostheses: Devices that are attached to the outside of the body, like artificial arms, legs, hands, and feet. These may be further classified into:
a. Cosmetic or aesthetic prostheses: Primarily designed to improve the appearance of the affected area.
b. Functional prostheses: Designed to help restore the functionality and mobility of the lost limb.
2. Internal prostheses: Implanted artificial parts that replace missing internal organs, bones, or tissues, such as heart valves, hip joints, or intraocular lenses.

Implants: Medical devices or substances that are intentionally placed inside the body to replace or support a missing or damaged biological structure, deliver medication, monitor physiological functions, or enhance bodily functions. Examples of implants include:

1. Orthopedic implants: Devices used to replace or reinforce damaged bones, joints, or cartilage, such as knee or hip replacements.
2. Cardiovascular implants: Devices that help support or regulate heart function, like pacemakers, defibrillators, and artificial heart valves.
3. Dental implants: Artificial tooth roots that are placed into the jawbone to support dental prostheses, such as crowns, bridges, or dentures.
4. Neurological implants: Devices used to stimulate nerves, brain structures, or spinal cord tissues to treat various neurological conditions, like deep brain stimulators for Parkinson's disease or cochlear implants for hearing loss.
5. Ophthalmic implants: Artificial lenses that are placed inside the eye to replace a damaged or removed natural lens, such as intraocular lenses used in cataract surgery.

Blood substitutes, also known as artificial blood or blood surrogates, are fluids that are designed to mimic some of the properties and functions of human blood. They are used as a replacement for blood transfusions in situations where blood is not available or when it is not safe to use. Blood substitutes can be divided into two main categories: oxygen-carrying and non-oxygen-carrying.

Oxygen-carrying blood substitutes contain artificial molecules called hemoglobin-based oxygen carriers (HBOCs) that are designed to carry oxygen from the lungs to the body's tissues. These HBOCs can be derived from human or animal hemoglobin, or they can be synthetically produced.

Non-oxygen-carrying blood substitutes, on the other hand, do not contain hemoglobin and are used primarily to restore intravascular volume and maintain blood pressure in cases of hypovolemia (low blood volume) caused by bleeding or dehydration. These products include crystalloids, such as saline solution and lactated Ringer's solution, and colloids, such as albumin and hydroxyethyl starch solutions.

It is important to note that while blood substitutes can be useful in certain situations, they are not a perfect substitute for human blood. They do not provide all of the functions of blood, such as immune defense and clotting, and their use is associated with some risks, including allergic reactions, kidney damage, and increased oxygen free radical production. Therefore, they should only be used when there is no suitable alternative available.

"Second-look surgery" is a medical term that refers to a second surgical procedure performed after an initial operation, usually to evaluate the effectiveness of treatment or to check for any potential complications. This type of surgery is often used in cancer treatment, where it can help determine if the tumor has responded to chemotherapy or radiation therapy. During the second-look surgery, surgeons may remove additional tissue or tumor cells, or they may perform other procedures to manage any complications that have arisen since the first surgery.

It's worth noting that the use of second-look surgery is not always necessary or appropriate, and the decision to perform this type of procedure will depend on a variety of factors, including the patient's overall health, the type and stage of cancer, and the specific goals of treatment. As with any surgical procedure, there are risks associated with second-look surgery, and patients should discuss these risks thoroughly with their healthcare provider before making a decision about treatment.

Poloxamers are a type of triblock copolymer made up of a central hydrophobic chain of polyoxypropylene (poly(propylene oxide)) flanked by two hydrophilic chains of polyoxyethylene (poly(ethylene oxide)). They are amphiphilic molecules, meaning they have both hydrophilic and hydrophobic parts.

Poloxamers are often used in the pharmaceutical industry as drug delivery agents, emulsifiers, solubilizers, and stabilizers. They can form micelles in aqueous solutions above their critical micelle concentration (CMC), with the hydrophobic chains oriented toward the interior of the micelle and the hydrophilic chains on the exterior, interacting with the water molecules. This unique property allows poloxamers to solubilize drugs that are otherwise poorly soluble in water, improving their bioavailability.

Poloxamers have been studied for various medical applications, including as drug carriers for chemotherapy, diagnostic agents, and mucoadhesive materials. Some specific poloxamer compounds have been approved by the FDA for use in pharmaceutical formulations, such as Poloxamer 188 and Poloxamer 407.

In a medical context, poloxamers are not typically used as standalone treatments but rather as components of drug delivery systems or formulations.

I couldn't find a medical definition specifically for "delayed-action preparations." However, in the context of pharmacology, it may refer to medications or treatments that have a delayed onset of action. These are designed to release the active drug slowly over an extended period, which can help to maintain a consistent level of the medication in the body and reduce the frequency of dosing.

Examples of delayed-action preparations include:

1. Extended-release (ER) or controlled-release (CR) formulations: These are designed to release the drug slowly over several hours, reducing the need for frequent dosing. Examples include extended-release tablets and capsules.
2. Transdermal patches: These deliver medication through the skin and can provide a steady rate of drug delivery over several days. Examples include nicotine patches for smoking cessation or fentanyl patches for pain management.
3. Injectable depots: These are long-acting injectable formulations that slowly release the drug into the body over weeks to months. An example is the use of long-acting antipsychotic injections for the treatment of schizophrenia.
4. Implantable devices: These are small, biocompatible devices placed under the skin or within a body cavity that release a steady dose of medication over an extended period. Examples include hormonal implants for birth control or drug-eluting stents used in cardiovascular procedures.

Delayed-action preparations can improve patient compliance and quality of life by reducing dosing frequency, minimizing side effects, and maintaining consistent therapeutic levels.

Polyglactin 910 is a type of synthetic absorbable suture made from copolymers of lactide and glycolide. It is designed to gradually break down and be absorbed by the body over time, typically within 56 to 70 days after being used in surgical wounds. This property makes it an ideal choice for soft tissue approximation and laceration repairs.

Polyglactin 910 sutures are often used in various surgical procedures, including orthopedic, ophthalmic, cardiovascular, and general surgery. They come in different sizes and forms, such as plain, reverse cutting, and braided, to suit various surgical needs.

The gradual absorption of Polyglactin 910 sutures helps minimize scarring and reduces the need for suture removal procedures. However, it is essential to note that inflammation may occur during the degradation process, which could potentially lead to adverse reactions in some individuals. Proper wound care and follow-up with healthcare professionals are crucial to ensure optimal healing and manage any potential complications.

Povidone, also known as PVP or polyvinylpyrrolidone, is not a medication itself but rather a pharmaceutical ingredient used in various medical and healthcare products. It is a water-soluble synthetic polymer that has the ability to bind to and carry other substances, such as drugs or iodine.

In medical applications, povidone is often used as a binder or coating agent in pharmaceutical tablets and capsules. It can also be found in some topical antiseptic solutions, such as those containing iodine, where it helps to stabilize and control the release of the active ingredient.

It's important to note that while povidone is a widely used pharmaceutical ingredient, it is not typically considered a medication on its own.

Dura Mater: The tough, outer membrane that covers the brain and spinal cord.

Hydroxyapatite: A naturally occurring mineral form of calcium apatite, also known as dahllite, with the formula Ca5(PO4)3(OH), is the primary mineral component of biological apatites found in bones and teeth.

Therefore, "Durapatite" isn't a recognized medical term, but it seems like it might be a combination of "dura mater" and "hydroxyapatite." If you meant to ask about a material used in medical or dental applications that combines properties of both dura mater and hydroxyapatite, please provide more context.

Fecal impaction is a medical condition where a large mass of dry, hard stool becomes stuck in the rectum and cannot be expelled from the body. This can occur due to chronic constipation or other factors that affect normal bowel movements. Fecal impaction can cause symptoms such as abdominal pain, bloating, nausea, vomiting, and difficulty having a bowel movement. In some cases, it may also lead to more serious complications, such as bowel obstruction or perforation. Treatment typically involves using medications to soften the stool and manual removal of the impaction by a healthcare professional.

A nanocapsule is a type of nanoparticle that is characterized by its hollow, spherical structure. It is composed of a polymeric membrane that encapsulates an inner core or "cargo" which can be made up of various substances such as drugs, proteins, or imaging agents. The small size of nanocapsules (typically ranging from 10 to 1000 nanometers in diameter) allows them to penetrate cells and tissue more efficiently than larger particles, making them useful for targeted drug delivery and diagnostic applications.

The polymeric membrane can be designed to be biodegradable or non-biodegradable, depending on the desired application. Additionally, the surface of nanocapsules can be functionalized with various moieties such as antibodies, peptides, or small molecules to enhance their targeting capabilities and improve their stability in biological environments.

Overall, nanocapsules have great potential for use in a variety of medical applications, including cancer therapy, gene delivery, and vaccine development.

Hydrogen-ion concentration, also known as pH, is a measure of the acidity or basicity of a solution. It is defined as the negative logarithm (to the base 10) of the hydrogen ion activity in a solution. The standard unit of measurement is the pH unit. A pH of 7 is neutral, less than 7 is acidic, and greater than 7 is basic.

In medical terms, hydrogen-ion concentration is important for maintaining homeostasis within the body. For example, in the stomach, a high hydrogen-ion concentration (low pH) is necessary for the digestion of food. However, in other parts of the body such as blood, a high hydrogen-ion concentration can be harmful and lead to acidosis. Conversely, a low hydrogen-ion concentration (high pH) in the blood can lead to alkalosis. Both acidosis and alkalosis can have serious consequences on various organ systems if not corrected.

Subcutaneous tissue, also known as the subcutis or hypodermis, is the layer of fatty connective tissue found beneath the dermis (the inner layer of the skin) and above the muscle fascia. It is composed mainly of adipose tissue, which serves as a energy storage reservoir and provides insulation and cushioning to the body. The subcutaneous tissue also contains blood vessels, nerves, and immune cells that support the skin's functions. This layer varies in thickness depending on the location in the body and can differ significantly between individuals based on factors such as age, genetics, and weight.

A microclimate refers to a localized climate or weather conditions that differ from those in the surrounding areas. It is typically created by differences in terrain, vegetation, water bodies, or man-made structures that can affect temperature, humidity, wind, and precipitation patterns. In medical terms, understanding microclimates can be important for studying the spread of diseases, air quality, and other environmental factors that may impact human health. For example, urban microclimates created by concrete and asphalt can retain heat and increase air pollution levels, which may exacerbate respiratory symptoms in individuals with lung disease.

Follow-up studies are a type of longitudinal research that involve repeated observations or measurements of the same variables over a period of time, in order to understand their long-term effects or outcomes. In medical context, follow-up studies are often used to evaluate the safety and efficacy of medical treatments, interventions, or procedures.

In a typical follow-up study, a group of individuals (called a cohort) who have received a particular treatment or intervention are identified and then followed over time through periodic assessments or data collection. The data collected may include information on clinical outcomes, adverse events, changes in symptoms or functional status, and other relevant measures.

The results of follow-up studies can provide important insights into the long-term benefits and risks of medical interventions, as well as help to identify factors that may influence treatment effectiveness or patient outcomes. However, it is important to note that follow-up studies can be subject to various biases and limitations, such as loss to follow-up, recall bias, and changes in clinical practice over time, which must be carefully considered when interpreting the results.

Tissue distribution, in the context of pharmacology and toxicology, refers to the way that a drug or xenobiotic (a chemical substance found within an organism that is not naturally produced by or expected to be present within that organism) is distributed throughout the body's tissues after administration. It describes how much of the drug or xenobiotic can be found in various tissues and organs, and is influenced by factors such as blood flow, lipid solubility, protein binding, and the permeability of cell membranes. Understanding tissue distribution is important for predicting the potential effects of a drug or toxin on different parts of the body, and for designing drugs with improved safety and efficacy profiles.

Medical technology, also known as health technology, refers to the use of medical devices, medicines, vaccines, procedures, and systems for the purpose of preventing, diagnosing, or treating disease and disability. This can include a wide range of products and services, from simple devices like tongue depressors and bandages, to complex technologies like MRI machines and artificial organs.

Pharmaceutical technology, on the other hand, specifically refers to the application of engineering and scientific principles to the development, production, and control of pharmaceutical drugs and medical devices. This can include the design and construction of manufacturing facilities, the development of new drug delivery systems, and the implementation of quality control measures to ensure the safety and efficacy of pharmaceutical products.

Both medical technology and pharmaceutical technology play crucial roles in modern healthcare, helping to improve patient outcomes, reduce healthcare costs, and enhance the overall quality of life for individuals around the world.

"Device Removal" in a medical context generally refers to the surgical or nonsurgical removal of a medical device that has been previously implanted in a patient's body. The purpose of removing the device may vary, depending on the individual case. Some common reasons for device removal include infection, malfunction, rejection, or when the device is no longer needed.

Examples of medical devices that may require removal include pacemakers, implantable cardioverter-defibrillators (ICDs), artificial joints, orthopedic hardware, breast implants, cochlear implants, and intrauterine devices (IUDs). The procedure for device removal will depend on the type of device, its location in the body, and the reason for its removal.

It is important to note that device removal carries certain risks, such as bleeding, infection, damage to surrounding tissues, or complications related to anesthesia. Therefore, the decision to remove a medical device should be made carefully, considering both the potential benefits and risks of the procedure.

Treatment outcome is a term used to describe the result or effect of medical treatment on a patient's health status. It can be measured in various ways, such as through symptoms improvement, disease remission, reduced disability, improved quality of life, or survival rates. The treatment outcome helps healthcare providers evaluate the effectiveness of a particular treatment plan and make informed decisions about future care. It is also used in clinical research to compare the efficacy of different treatments and improve patient care.

Bovine Serum Albumin (BSA) is not a medical term per se, but a biochemical term. It is widely used in medical and biological research. Here's the definition:

Bovine Serum Albumin is a serum albumin protein derived from cows. It is often used as a stabilizer, an emulsifier, or a protein source in various laboratory and industrial applications, including biochemical experiments, cell culture media, and diagnostic kits. BSA has a high solubility in water and can bind to many different types of molecules, making it useful for preventing unwanted interactions between components in a solution. It also has a consistent composition and is relatively inexpensive compared to human serum albumin, which are factors that contribute to its widespread use.

Osseointegration is a direct structural and functional connection between living bone and the surface of an implant. It's a process where the bone grows in and around the implant, which is typically made of titanium or another biocompatible material. This process provides a solid foundation for dental prosthetics, such as crowns, bridges, or dentures, or for orthopedic devices like artificial limbs. The success of osseointegration depends on various factors, including the patient's overall health, the quality and quantity of available bone, and the surgical technique used for implant placement.

I believe you are asking for a medical explanation or definition of the term "diamond" in a medical context. However, I should clarify that "diamond" is not a commonly used medical term for a specific disease, condition, or diagnostic feature. It's essential to provide more information if it relates to a particular medical concept or usage.

In general, the term "diamond" refers to a clear and colorless form of carbon with a crystalline structure in which each carbon atom is bonded to four other carbon atoms, forming a tetrahedral shape. It's widely known for its use as a valuable gemstone due to its exceptional hardness, brilliance, and fire.

However, there are some tangential medical connections to the term "diamond." For example:

1. Diamond Blackfan anemia (DBA): A rare congenital bone marrow failure disorder characterized by a decrease in red blood cell production. It is named after Drs. Louis Diamond and Kenneth Blackfan, who first described it.
2. Turner syndrome with XY sex chromosomes: A rare genetic condition where an individual has only one functional X chromosome instead of the typical pair (XX) found in females. Occasionally, these individuals may have a Y chromosome fragment, often referred to as "mosaic Turner syndrome with XY cells" or "XY gonadal dysgenesis." In this context, the term "XY" is sometimes metaphorically described as a "genetic male's 'diamond in the rough'" due to its rarity and unique characteristics.

If you have more information about how the term "diamond" is being used in your specific medical context, I would be happy to help further clarify or provide additional details.

I'm sorry for any confusion, but "Plasma Gases" is not a recognized medical term or concept. Plasma is a state of matter, like solid, liquid, or gas, and it is often referred to as the fourth state of matter. It consists of ionized particles, or particles that have been stripped of some of their electrons.

In the context of medicine, plasma is most commonly discussed in relation to blood plasma, which is the yellowish fluid in which blood cells are suspended. Plasma carries cells, hormones, nutrients, and waste products throughout the body.

If you have any questions related to medical definitions or concepts, I'd be happy to help further if I can!

I believe there may be some confusion in your question. "Rabbits" is a common name used to refer to the Lagomorpha species, particularly members of the family Leporidae. They are small mammals known for their long ears, strong legs, and quick reproduction.

However, if you're referring to "rabbits" in a medical context, there is a term called "rabbit syndrome," which is a rare movement disorder characterized by repetitive, involuntary movements of the fingers, resembling those of a rabbit chewing. It is also known as "finger-chewing chorea." This condition is usually associated with certain medications, particularly antipsychotics, and typically resolves when the medication is stopped or adjusted.

Sodium Chloride is defined as the inorganic compound with the chemical formula NaCl, representing a 1:1 ratio of sodium and chloride ions. It is commonly known as table salt or halite, and it is used extensively in food seasoning and preservation due to its ability to enhance flavor and inhibit bacterial growth. In medicine, sodium chloride is used as a balanced electrolyte solution for rehydration and as a topical wound irrigant and antiseptic. It is also an essential component of the human body's fluid balance and nerve impulse transmission.

In the context of medical research, "methods" refers to the specific procedures or techniques used in conducting a study or experiment. This includes details on how data was collected, what measurements were taken, and what statistical analyses were performed. The methods section of a medical paper allows other researchers to replicate the study if they choose to do so. It is considered one of the key components of a well-written research article, as it provides transparency and helps establish the validity of the findings.

Phosphatidylethanolamines (PE) are a type of phospholipid that are abundantly found in the cell membranes of living organisms. They play a crucial role in maintaining the structural integrity and functionality of the cell membrane. PE contains a hydrophilic head, which consists of an ethanolamine group linked to a phosphate group, and two hydrophobic fatty acid chains. This unique structure allows PE to form a lipid bilayer, where the hydrophilic heads face outwards and interact with the aqueous environment, while the hydrophobic tails face inwards and interact with each other.

PE is also involved in various cellular processes, such as membrane trafficking, autophagy, and signal transduction. Additionally, PE can be modified by the addition of various functional groups or molecules, which can further regulate its functions and interactions within the cell. Overall, phosphatidylethanolamines are essential components of cellular membranes and play a critical role in maintaining cellular homeostasis.

X-ray crystallography is a technique used in structural biology to determine the three-dimensional arrangement of atoms in a crystal lattice. In this method, a beam of X-rays is directed at a crystal and diffracts, or spreads out, into a pattern of spots called reflections. The intensity and angle of each reflection are measured and used to create an electron density map, which reveals the position and type of atoms in the crystal. This information can be used to determine the molecular structure of a compound, including its shape, size, and chemical bonds. X-ray crystallography is a powerful tool for understanding the structure and function of biological macromolecules such as proteins and nucleic acids.

Simethicone is an anti-foaming agent that is commonly used in the medical field, particularly for the treatment of gastric symptoms such as bloating and discomfort caused by excessive gas in the gastrointestinal tract. It works by reducing the surface tension of gas bubbles in the stomach and intestines, allowing them to combine and be expelled more easily from the body.

Simethicone is not absorbed into the bloodstream and has minimal systemic absorption, making it a safe and well-tolerated medication for most individuals. It can be found in various forms, including tablets, chewable tablets, capsules, and liquids, and is often combined with other medications to provide symptomatic relief of gastric discomfort.

It's important to note that simethicone should only be used as directed by a healthcare professional, and individuals should always consult their doctor or pharmacist before taking any new medication.

Osmosis is a physiological process in which solvent molecules move from an area of lower solute concentration to an area of higher solute concentration, through a semi-permeable membrane, with the goal of equalizing the solute concentrations on the two sides. This process occurs naturally and is essential for the functioning of cells and biological systems.

In medical terms, osmosis plays a crucial role in maintaining water balance and regulating the distribution of fluids within the body. For example, it helps to control the flow of water between the bloodstream and the tissues, and between the different fluid compartments within the body. Disruptions in osmotic balance can lead to various medical conditions, such as dehydration, swelling, and electrolyte imbalances.

Tissue adhesives, also known as surgical glues or tissue sealants, are medical devices used to approximate and hold together tissues or wounds in place of traditional sutures or staples. They work by creating a bond between the tissue surfaces, helping to promote healing and reduce the risk of infection. Tissue adhesives can be synthetic or biologically derived and are often used in various surgical procedures, including ophthalmic, dermatological, and pediatric surgeries. Some common types of tissue adhesives include cyanoacrylate-based glues, fibrin sealants, and collagen-based sealants.

Osmotic pressure is a fundamental concept in the field of physiology and biochemistry. It refers to the pressure that is required to be applied to a solution to prevent the flow of solvent (like water) into it, through a semi-permeable membrane, when the solution is separated from a pure solvent or a solution of lower solute concentration.

In simpler terms, osmotic pressure is the force that drives the natural movement of solvent molecules from an area of lower solute concentration to an area of higher solute concentration, across a semi-permeable membrane. This process is crucial for maintaining the fluid balance and nutrient transport in living organisms.

The osmotic pressure of a solution can be determined by its solute concentration, temperature, and the ideal gas law. It is often expressed in units of atmospheres (atm), millimeters of mercury (mmHg), or pascals (Pa). In medical contexts, understanding osmotic pressure is essential for managing various clinical conditions such as dehydration, fluid and electrolyte imbalances, and dialysis treatments.

Viscosity is a physical property of a fluid that describes its resistance to flow. In medical terms, viscosity is often discussed in relation to bodily fluids such as blood or synovial fluid (found in joints). The unit of measurement for viscosity is the poise, although it is more commonly expressed in millipascals-second (mPa.s) in SI units. Highly viscous fluids flow more slowly than less viscous fluids. Changes in the viscosity of bodily fluids can have significant implications for health and disease; for example, increased blood viscosity has been associated with cardiovascular diseases, while decreased synovial fluid viscosity can contribute to joint pain and inflammation in conditions like osteoarthritis.

Dendrimers are a type of synthetic, nanoscale polymer structures with a well-defined, highly branched, and regularly repeating architecture. They consist of a central core, an inner layer of repetitive branches, and an outer surface that can be functionalized with various groups. Dendrimers have unique properties such as monodispersity, a high degree of symmetry, and the ability to encapsulate or conjugate drugs, genes, and imaging agents, making them useful in drug delivery, gene therapy, diagnostics, and other biomedical applications.

In the context of pharmacology, "half-life" refers to the time it takes for the concentration or amount of a drug in the body to be reduced by half during its elimination phase. This is typically influenced by factors such as metabolism and excretion rates of the drug. It's a key factor in determining dosage intervals and therapeutic effectiveness of medications, as well as potential side effects or toxicity risks.

In the context of medicine and pharmacology, "kinetics" refers to the study of how a drug moves throughout the body, including its absorption, distribution, metabolism, and excretion (often abbreviated as ADME). This field is called "pharmacokinetics."

1. Absorption: This is the process of a drug moving from its site of administration into the bloodstream. Factors such as the route of administration (e.g., oral, intravenous, etc.), formulation, and individual physiological differences can affect absorption.

2. Distribution: Once a drug is in the bloodstream, it gets distributed throughout the body to various tissues and organs. This process is influenced by factors like blood flow, protein binding, and lipid solubility of the drug.

3. Metabolism: Drugs are often chemically modified in the body, typically in the liver, through processes known as metabolism. These changes can lead to the formation of active or inactive metabolites, which may then be further distributed, excreted, or undergo additional metabolic transformations.

4. Excretion: This is the process by which drugs and their metabolites are eliminated from the body, primarily through the kidneys (urine) and the liver (bile).

Understanding the kinetics of a drug is crucial for determining its optimal dosing regimen, potential interactions with other medications or foods, and any necessary adjustments for special populations like pediatric or geriatric patients, or those with impaired renal or hepatic function.

Temperature, in a medical context, is a measure of the degree of hotness or coldness of a body or environment. It is usually measured using a thermometer and reported in degrees Celsius (°C), degrees Fahrenheit (°F), or kelvin (K). In the human body, normal core temperature ranges from about 36.5-37.5°C (97.7-99.5°F) when measured rectally, and can vary slightly depending on factors such as time of day, physical activity, and menstrual cycle. Elevated body temperature is a common sign of infection or inflammation, while abnormally low body temperature can indicate hypothermia or other medical conditions.

Total disc replacement (TDR), also known as total disc arthroplasty, is a surgical procedure in which the damaged or degenerated intervertebral disc in the spine is removed and replaced with an artificial device. The primary goal of this procedure is to maintain motion within the spinal segment while alleviating pain and other symptoms caused by the damaged disc.

The artificial disc, typically made from materials such as metal or polymer, is designed to replicate the natural movement and function of a healthy intervertebral disc. The surgery can be performed at various levels of the spine, including cervical (neck) and lumbar (lower back), depending on the location of the damaged disc.

TDR is generally considered for patients with degenerative disc disease who have not responded to non-surgical treatments such as physical therapy or pain management. The potential benefits of TDR over traditional spinal fusion surgery include preserving motion, reducing the risk of adjacent segment degeneration, and potentially faster recovery times. However, as with any surgical procedure, there are risks involved, including infection, implant wear, dislocation, or subsidence (sinking of the implant into the bone). It is essential to discuss these potential risks and benefits with a qualified medical professional before making a decision about undergoing TDR surgery.

Senna extract is a herbal preparation made from the leaves and fruit of the senna plant (Cassia senna or Cassia angustifolia), which belongs to the Fabaceae family. The active components in senna extract are anthraquinone glycosides, primarily sennosides A and B, that have laxative properties.

The medical definition of Senna extract is:
A standardized herbal extract derived from the leaves or fruit of the senna plant, containing a specific amount of sennosides (usually expressed as a percentage). It is used medically as a stimulant laxative to treat constipation and prepare the bowel for diagnostic procedures like colonoscopies. The laxative effect of senna extract is due to increased peristalsis and inhibition of water and electrolyte absorption in the large intestine, which results in softer stools and easier evacuation.

It's important to note that long-term use or misuse of senna extract can lead to dependence, electrolyte imbalances, and potential damage to the colon. Therefore, medical supervision is recommended when using senna extract as a laxative.

Nanostructures, in the context of medical and biomedical research, refer to materials or devices with structural features that have at least one dimension ranging between 1-100 nanometers (nm). At this size scale, the properties of these structures can differ significantly from bulk materials, exhibiting unique phenomena that are often influenced by quantum effects.

Nanostructures have attracted considerable interest in biomedicine due to their potential applications in various areas such as drug delivery, diagnostics, regenerative medicine, and tissue engineering. They can be fabricated from a wide range of materials including metals, polymers, ceramics, and carbon-based materials.

Some examples of nanostructures used in biomedicine include:

1. Nanoparticles: These are tiny particles with at least one dimension in the nanoscale range. They can be made from various materials like metals, polymers, or lipids and have applications in drug delivery, imaging, and diagnostics.
2. Quantum dots: These are semiconductor nanocrystals that exhibit unique optical properties due to quantum confinement effects. They are used as fluorescent labels for bioimaging and biosensing applications.
3. Carbon nanotubes: These are hollow, cylindrical structures made of carbon atoms arranged in a hexagonal lattice. They have exceptional mechanical strength, electrical conductivity, and thermal stability, making them suitable for various biomedical applications such as drug delivery, tissue engineering, and biosensors.
4. Nanofibers: These are elongated nanostructures with high aspect ratios (length much greater than width). They can be fabricated from various materials like polymers, ceramics, or composites and have applications in tissue engineering, wound healing, and drug delivery.
5. Dendrimers: These are highly branched, nanoscale polymers with a well-defined structure and narrow size distribution. They can be used as drug carriers, gene delivery vehicles, and diagnostic agents.
6. Nanoshells: These are hollow, spherical nanoparticles consisting of a dielectric core covered by a thin metallic shell. They exhibit unique optical properties that make them suitable for applications such as photothermal therapy, biosensing, and imaging.

Enophthalmos is a medical term that refers to the abnormal positioning of the eyeball within its socket, resulting in a posterior or backward displacement of the eye. This condition can occur due to various reasons such as trauma, surgical procedures, or diseases that affect the orbital tissues, including cancer, inflammation, or infection. Enophthalmos may lead to cosmetic concerns and visual disturbances, depending on its severity. A thorough examination by an ophthalmologist or an oculoplastic surgeon is necessary for accurate diagnosis and management of this condition.

The tibia, also known as the shin bone, is the larger of the two bones in the lower leg and part of the knee joint. It supports most of the body's weight and is a major insertion point for muscles that flex the foot and bend the leg. The tibia articulates with the femur at the knee joint and with the fibula and talus bone at the ankle joint. Injuries to the tibia, such as fractures, are common in sports and other activities that put stress on the lower leg.

Indicators and reagents are terms commonly used in the field of clinical chemistry and laboratory medicine. Here are their definitions:

1. Indicator: An indicator is a substance that changes its color or other physical properties in response to a chemical change, such as a change in pH, oxidation-reduction potential, or the presence of a particular ion or molecule. Indicators are often used in laboratory tests to monitor or signal the progress of a reaction or to indicate the end point of a titration. A familiar example is the use of phenolphthalein as a pH indicator in acid-base titrations, which turns pink in basic solutions and colorless in acidic solutions.

2. Reagent: A reagent is a substance that is added to a system (such as a sample or a reaction mixture) to bring about a chemical reaction, test for the presence or absence of a particular component, or measure the concentration of a specific analyte. Reagents are typically chemicals with well-defined and consistent properties, allowing them to be used reliably in analytical procedures. Examples of reagents include enzymes, antibodies, dyes, metal ions, and organic compounds. In laboratory settings, reagents are often prepared and standardized according to strict protocols to ensure their quality and performance in diagnostic tests and research applications.

Mannitol is a type of sugar alcohol (a sugar substitute) used primarily as a diuretic to reduce brain swelling caused by traumatic brain injury or other causes that induce increased pressure in the brain. It works by drawing water out of the body through the urine. It's also used before surgeries in the heart, lungs, and kidneys to prevent fluid buildup.

In addition, mannitol is used in medical laboratories as a medium for growing bacteria and other microorganisms, and in some types of chemical research. In the clinic, it is also used as an osmotic agent in eye drops to reduce the pressure inside the eye in conditions such as glaucoma.

It's important to note that mannitol should be used with caution in patients with heart or kidney disease, as well as those who are dehydrated, because it can lead to electrolyte imbalances and other complications.

An emulsion is a type of stable mixture of two immiscible liquids, such as oil and water, which are normally unable to mix together uniformly. In an emulsion, one liquid (the dispersed phase) is broken down into small droplets and distributed throughout the other liquid (the continuous phase), creating a stable, cloudy mixture.

In medical terms, emulsions can be used in various pharmaceutical and cosmetic applications. For example, certain medications may be formulated as oil-in-water or water-in-oil emulsions to improve their absorption, stability, or palatability. Similarly, some skincare products and makeup removers contain emulsifiers that help create stable mixtures of water and oils, allowing for effective cleansing and moisturizing.

Emulsions can also occur naturally in the body, such as in the digestion of fats. The bile salts produced by the liver help to form small droplets of dietary lipids (oil) within the watery environment of the small intestine, allowing for efficient absorption and metabolism of these nutrients.

A hydrogel is a biomaterial that is composed of a three-dimensional network of crosslinked polymers, which are able to absorb and retain a significant amount of water or biological fluids while maintaining their structure. Hydrogels are similar to natural tissues in their water content, making them suitable for various medical applications such as contact lenses, wound dressings, drug delivery systems, tissue engineering, and regenerative medicine.

Hydrogels can be synthesized from a variety of materials, including synthetic polymers like polyethylene glycol (PEG) or natural polymers like collagen, hyaluronic acid, or chitosan. The properties of hydrogels, such as their mechanical strength, degradation rate, and biocompatibility, can be tailored to specific applications by adjusting the type and degree of crosslinking, the molecular weight of the polymers, and the addition of functional groups or drugs.

Hydrogels have shown great potential in medical research and clinical practice due to their ability to mimic the natural environment of cells and tissues, provide sustained drug release, and promote tissue regeneration.

Barbital is a type of barbiturate drug that was commonly used as a sedative and sleep aid in the past. Its chemical name is sodium 5,5-diethylbarbituric acid, and it is also known by its brand name, Veronal. Barbital has a long duration of action, typically lasting between 6 to 10 hours, and was used for the treatment of insomnia, anxiety, and seizure disorders.

Barbital works by enhancing the activity of gamma-aminobutyric acid (GABA), a neurotransmitter that inhibits the activity of nerve cells in the brain. This results in a sedative effect, reducing anxiety and promoting sleep. However, barbital also has a high potential for abuse and dependence, and its use has declined significantly due to the development of safer and more effective alternative medications.

It is important to note that barbital is a controlled substance, and its possession and use are regulated by law in many countries. It should only be used under the supervision of a licensed healthcare professional, and its use should be avoided in individuals with a history of addiction or substance abuse.

"Pharmaceutical vehicles" is not a standard term in medical or pharmaceutical sciences. However, I can provide some context based on the phrase's possible meaning. If by "pharmaceutical vehicles," you mean the carriers or delivery systems for drugs or medications, then the definition would be:

Pharmaceutical vehicles refer to various formulations, preparations, or technologies that facilitate and control the administration of a drug or therapeutic agent to its target site in the body. These can include different types of drug delivery systems such as tablets, capsules, liposomes, nanoparticles, transdermal patches, inhalers, injectables, and other innovative drug carrier technologies.

These pharmaceutical vehicles ensure that the active ingredients are safely and effectively transported to their intended site of action within the body, enhancing therapeutic efficacy while minimizing potential side effects.

I'm sorry for any confusion, but "Product Packaging" is not a medical term. Product packaging generally refers to the process of designing and producing containers or wrapping for a product. This is typically a term used in the context of consumer goods, retail, and industrial manufacturing, rather than in medicine. In medicine, terms like "medication packaging" or "pharmaceutical packaging" might be used to refer to the specific ways that medications are packaged for distribution and use.

"Plastics" is not a term that has a specific medical definition. However, in a broader context, plastics can refer to a wide range of synthetic or semi-synthetic materials that are used in various medical applications due to their durability, flexibility, and ability to be molded into different shapes. Some examples include:

1. Medical devices such as catheters, implants, and surgical instruments.
2. Packaging for medical supplies and pharmaceuticals.
3. Protective barriers like gloves and gowns used in medical settings.
4. Intraocular lenses and other ophthalmic applications.

It's important to note that the term "plastics" is not a medical term per se, but rather a general category of materials with diverse uses across different industries, including healthcare.

Pharmaceutic aids, also known as pharmaceutical excipients or additives, are substances that are added to pharmaceutical formulations during the manufacturing process. They are not intended to have any therapeutic effect, but rather to improve the drug's stability, bioavailability, palatability, or patient compliance.

Examples of pharmaceutic aids include binders, fillers, coatings, disintegrants, preservatives, coloring agents, and flavoring agents. Binders help hold the active ingredients together in a solid form, while fillers are used to add bulk to the formulation. Coatings can be used to protect the drug from degradation or to make it easier to swallow. Disintegrants help the tablet or capsule break down quickly in the digestive tract so that the active ingredient can be absorbed more efficiently. Preservatives are added to prevent microbial growth, while coloring and flavoring agents improve the appearance and taste of the medication.

It is important to note that pharmaceutic aids must undergo rigorous testing to ensure their safety and compatibility with the active ingredients in the drug formulation. Some people may have allergies or sensitivities to certain excipients, so it is essential to consider these factors when developing and prescribing medications.

Thermogravimetry (TG) is a technique used in materials science and analytical chemistry to measure the mass of a substance as a function of temperature while it is subjected to a controlled heating or cooling rate in a carefully controlled atmosphere. The sample is placed in a pan which is suspended from a balance and heated at a constant rate. As the temperature increases, various components of the sample may decompose, lose water, or evolve gases, resulting in a decrease in mass, which is recorded by the balance.

TG can be used to determine the weight loss due to decomposition, desorption, or volatilization, and to calculate the amount of various components present in a sample. It is often used in conjunction with other techniques such as differential thermal analysis (DTA) or differential scanning calorimetry (DSC) to provide additional information about the thermal behavior of materials.

In summary, thermogravimetry is a method for measuring the mass changes of a material as it is heated or cooled, which can be used to analyze its composition and thermal stability.

Oxidized cellulose is a type of modified cellulose that has undergone oxidation, resulting in the introduction of functional groups such as carboxylic acid or aldehyde groups along the cellulose chain. This process can alter the physical and chemical properties of cellulose, making it more soluble in water and capable of forming gels or films.

Oxidized cellulose is used in a variety of applications, including as a wound dressing material, where it can help to promote healing by providing a moist environment that supports tissue regeneration. It can also be used as a thickening or stabilizing agent in food and cosmetic products, or as a component in the manufacture of specialized papers and textiles.

Tensile strength is a material property that measures the maximum amount of tensile (pulling) stress that a material can withstand before failure, such as breaking or fracturing. It is usually measured in units of force per unit area, such as pounds per square inch (psi) or pascals (Pa). In the context of medical devices or biomaterials, tensile strength may be used to describe the mechanical properties of materials used in implants, surgical tools, or other medical equipment. High tensile strength is often desirable in these applications to ensure that the material can withstand the stresses and forces it will encounter during use.

Silicones are not a medical term, but they are commonly used in the medical field, particularly in medical devices and healthcare products. Silicones are synthetic polymers made up of repeating units of siloxane, which is a chain of alternating silicon and oxygen atoms. They can exist in various forms such as oils, gels, rubbers, and resins.

In the medical context, silicones are often used for their unique properties, including:

1. Biocompatibility - Silicones have a low risk of causing an adverse reaction when they come into contact with living tissue.
2. Inertness - They do not react chemically with other substances, making them suitable for use in medical devices that need to remain stable over time.
3. Temperature resistance - Silicones can maintain their flexibility and elasticity even under extreme temperature conditions.
4. Gas permeability - Some silicone materials allow gases like oxygen and water vapor to pass through, which is useful in applications where maintaining a moist environment is essential.
5. Durability - Silicones have excellent resistance to aging, weathering, and environmental factors, ensuring long-lasting performance.

Examples of medical applications for silicones include:

1. Breast implants
2. Contact lenses
3. Catheters
4. Artificial joints and tendons
5. Bandages and wound dressings
6. Drug delivery systems
7. Medical adhesives
8. Infant care products (nipples, pacifiers)

I believe there may be some confusion in your question. "Nylons" is a common term for a type of synthetic fiber often used in clothing, hosiery, and other textile applications. It is not a medical term or concept. If you have any questions related to medical terminology or concepts, I would be happy to try and help clarify!

A pulpectomy is a dental procedure that involves the removal of the entire pulp tissue, which includes the nerves, blood vessels, and connective tissues from within the root canal(s) of a tooth. This procedure is typically performed when the pulp tissue becomes infected or inflamed due to decay, trauma, or other causes.

Once the pulp tissue is removed, the root canal(s) are cleaned, shaped, and filled with an inert material such as gutta-percha to prevent reinfection and maintain the structural integrity of the tooth. A pulpectomy may be performed as a standalone procedure or as part of a larger treatment plan, such as a root canal therapy or endodontic treatment.

It's important to note that while a pulpectomy removes the infected or inflamed tissue from within the tooth, it does not address any external damage or decay that may be present on the tooth's surface. Additional dental work, such as a filling or crown, may be necessary to restore the tooth's function and appearance.

Articular Range of Motion (AROM) is a term used in physiotherapy and orthopedics to describe the amount of movement available in a joint, measured in degrees of a circle. It refers to the range through which synovial joints can actively move without causing pain or injury. AROM is assessed by measuring the degree of motion achieved by active muscle contraction, as opposed to passive range of motion (PROM), where the movement is generated by an external force.

Assessment of AROM is important in evaluating a patient's functional ability and progress, planning treatment interventions, and determining return to normal activities or sports participation. It is also used to identify any restrictions in joint mobility that may be due to injury, disease, or surgery, and to monitor the effectiveness of rehabilitation programs.

I'm sorry for any confusion, but "Food Packaging" is not a medical term. It is a term used to describe the process and materials used to package food products to protect them from contamination, damage, and to provide information about the product. Medical definitions are typically related to diseases, conditions, treatments, or anatomical terms. If you have any questions related to medical terminology, I'd be happy to help with those!

Radioimmunoassay (RIA) is a highly sensitive analytical technique used in clinical and research laboratories to measure concentrations of various substances, such as hormones, vitamins, drugs, or tumor markers, in biological samples like blood, urine, or tissues. The method relies on the specific interaction between an antibody and its corresponding antigen, combined with the use of radioisotopes to quantify the amount of bound antigen.

In a typical RIA procedure, a known quantity of a radiolabeled antigen (also called tracer) is added to a sample containing an unknown concentration of the same unlabeled antigen. The mixture is then incubated with a specific antibody that binds to the antigen. During the incubation period, the antibody forms complexes with both the radiolabeled and unlabeled antigens.

After the incubation, the unbound (free) radiolabeled antigen is separated from the antibody-antigen complexes, usually through a precipitation or separation step involving centrifugation, filtration, or chromatography. The amount of radioactivity in the pellet (containing the antibody-antigen complexes) is then measured using a gamma counter or other suitable radiation detection device.

The concentration of the unlabeled antigen in the sample can be determined by comparing the ratio of bound to free radiolabeled antigen in the sample to a standard curve generated from known concentrations of unlabeled antigen and their corresponding bound/free ratios. The higher the concentration of unlabeled antigen in the sample, the lower the amount of radiolabeled antigen that will bind to the antibody, resulting in a lower bound/free ratio.

Radioimmunoassays offer high sensitivity, specificity, and accuracy, making them valuable tools for detecting and quantifying low levels of various substances in biological samples. However, due to concerns about radiation safety and waste disposal, alternative non-isotopic immunoassay techniques like enzyme-linked immunosorbent assays (ELISAs) have become more popular in recent years.

Intestinal absorption refers to the process by which the small intestine absorbs water, nutrients, and electrolytes from food into the bloodstream. This is a critical part of the digestive process, allowing the body to utilize the nutrients it needs and eliminate waste products. The inner wall of the small intestine contains tiny finger-like projections called villi, which increase the surface area for absorption. Nutrients are absorbed into the bloodstream through the walls of the capillaries in these villi, and then transported to other parts of the body for use or storage.

Differential Thermal Analysis (DTA) is a technique used in thermoanalysis to study the physical and chemical changes that occur in a material as it is heated or cooled. It measures the difference in temperature between a sample and a reference material, both of which are subjected to the same temperature program.

In DTA, the sample and reference material are placed in separate but identical holders, and the temperature of the reference material is kept constant while the temperature of the sample is increased or decreased at a controlled rate. As the sample undergoes physical or chemical changes, such as phase transitions or chemical reactions, it absorbs or releases heat, causing its temperature to change relative to the reference material.

The DTA curve plots the temperature difference between the sample and the reference material against time or temperature. The resulting curve provides information about the thermal behavior of the sample, including any endothermic or exothermic reactions that occur as it is heated or cooled. Endothermic reactions, which require heat input, are indicated by a negative deflection in the DTA curve, while exothermic reactions, which release heat, are indicated by a positive deflection.

DTA is widely used in materials science, chemistry, and physics to study the thermal properties of materials, including their phase transitions, melting points, crystallization behavior, and chemical stability. It can also be used to identify unknown materials or to characterize the purity of a sample.

Photoelectron Spectroscopy (PES) is not typically considered a medical definition, but it is a term used in physical and analytical chemistry. However, I can provide a definition for you:

Photoelectron Spectroscopy (PES) is a technique used to study the electronic structure of atoms, molecules, and solids by irradiating them with photons (usually from a laser or a synchrotron light source) and measuring the kinetic energy of the ejected electrons. The technique provides information about the energy levels of the electrons in the sample, which can be used to determine its chemical composition, bonding, and electronic structure. PES is a valuable tool in surface science, materials research, and environmental analysis.

A hip dislocation is a medical emergency that occurs when the head of the femur (thighbone) slips out of its socket in the pelvis. This can happen due to high-energy trauma, such as a car accident or a severe fall. Hip dislocations can also occur in people with certain health conditions that make their hips more prone to displacement, such as developmental dysplasia of the hip.

There are two main types of hip dislocations: posterior and anterior. In a posterior dislocation, the femur head moves out of the back of the socket, which is the most common type. In an anterior dislocation, the femur head moves out of the front of the socket. Both types of hip dislocations can cause severe pain, swelling, and difficulty moving the affected leg.

Immediate medical attention is necessary for a hip dislocation to realign the bones and prevent further damage. Treatment typically involves sedation or anesthesia to relax the muscles around the joint, followed by a closed reduction procedure to gently guide the femur head back into the socket. In some cases, surgery may be required to repair any associated injuries, such as fractures or damaged ligaments. After treatment, physical therapy and rehabilitation are usually necessary to restore strength, mobility, and function to the affected hip joint.

Polymethyl methacrylate (PMMA) is a type of synthetic resin that is widely used in the medical field due to its biocompatibility and versatility. It is a transparent, rigid, and lightweight material that can be easily molded into different shapes and forms. Here are some of the medical definitions of PMMA:

1. A biocompatible acrylic resin used in various medical applications such as bone cement, intraocular lenses, dental restorations, and drug delivery systems.
2. A type of synthetic material that is used as a bone cement to fix prosthetic joint replacements and vertebroplasty for the treatment of spinal fractures.
3. A transparent and shatter-resistant material used in the manufacture of medical devices such as intravenous (IV) fluid bags, dialyzer housings, and oxygenators.
4. A drug delivery system that can be used to administer drugs locally or systemically, such as intraocular sustained-release drug implants for the treatment of chronic eye diseases.
5. A component of dental restorations such as fillings, crowns, and bridges due to its excellent mechanical properties and esthetic qualities.

Overall, PMMA is a versatile and valuable material in the medical field, with numerous applications that take advantage of its unique properties.

Biomechanics is the application of mechanical laws to living structures and systems, particularly in the field of medicine and healthcare. A biomechanical phenomenon refers to a observable event or occurrence that involves the interaction of biological tissues or systems with mechanical forces. These phenomena can be studied at various levels, from the molecular and cellular level to the tissue, organ, and whole-body level.

Examples of biomechanical phenomena include:

1. The way that bones and muscles work together to produce movement (known as joint kinematics).
2. The mechanical behavior of biological tissues such as bone, cartilage, tendons, and ligaments under various loads and stresses.
3. The response of cells and tissues to mechanical stimuli, such as the way that bone tissue adapts to changes in loading conditions (known as Wolff's law).
4. The biomechanics of injury and disease processes, such as the mechanisms of joint injury or the development of osteoarthritis.
5. The use of mechanical devices and interventions to treat medical conditions, such as orthopedic implants or assistive devices for mobility impairments.

Understanding biomechanical phenomena is essential for developing effective treatments and prevention strategies for a wide range of medical conditions, from musculoskeletal injuries to neurological disorders.

In the context of medical terminology, "solutions" refers to a homogeneous mixture of two or more substances, in which one substance (the solute) is uniformly distributed within another substance (the solvent). The solvent is typically the greater component of the solution and is capable of dissolving the solute.

Solutions can be classified based on the physical state of the solvent and solute. For instance, a solution in which both the solvent and solute are liquids is called a liquid solution or simply a solution. A solid solution is one where the solvent is a solid and the solute is either a gas, liquid, or solid. Similarly, a gas solution refers to a mixture where the solvent is a gas and the solute can be a gas, liquid, or solid.

In medical applications, solutions are often used as vehicles for administering medications, such as intravenous (IV) fluids, oral rehydration solutions, eye drops, and topical creams or ointments. The composition of these solutions is carefully controlled to ensure the appropriate concentration and delivery of the active ingredients.

I'm sorry for any confusion, but "nanocomposites" is not a term that has a specific medical definition. It is a term used in materials science and engineering to refer to a type of composite material where at least one of the phases has dimensions in the nanoscale (typically less than 100 nanometers). Nanocomposites can have unique properties that make them useful for various applications, including biomedical applications such as drug delivery systems or tissue engineering scaffolds. However, the term itself is not a medical definition.

I believe there may be some confusion in your question. Gold is typically a chemical element with the symbol Au and atomic number 79. It is a dense, soft, malleable, and ductile metal. It is one of the least reactive chemical elements and is solid under standard conditions.

However, if you are referring to "Gold" in the context of medical terminology, it may refer to:

1. Gold salts: These are a group of compounds that contain gold and are used in medicine for their anti-inflammatory properties. They have been used in the treatment of rheumatoid arthritis, although they have largely been replaced by newer drugs with fewer side effects.
2. Gold implants: In some cases, a small amount of gold may be surgically implanted into the eye to treat conditions such as age-related macular degeneration or diabetic retinopathy. The gold helps to hold the retina in place and can improve vision in some patients.
3. Gold thread embedment: This is an alternative therapy used in traditional Chinese medicine, where gold threads are embedded into the skin or acupuncture points for therapeutic purposes. However, there is limited scientific evidence to support its effectiveness.

I hope this information helps! If you have any further questions, please let me know.

Medical definitions generally refer to terms and concepts within the medical field. The term "metal nanoparticles" is more commonly used in materials science, chemistry, and physics. However, I can provide a general scientific definition that could be relevant to medical applications:

Metal nanoparticles are tiny particles with at least one dimension ranging from 1 to 100 nanometers (nm), composed of metals or metal compounds. They have unique optical, electronic, and chemical properties due to their small size and high surface-to-volume ratio, making them useful in various fields, including medical research. In medicine, metal nanoparticles can be used in drug delivery systems, diagnostics, and therapeutic applications such as photothermal therapy and radiation therapy. Examples of metals used for nanoparticle synthesis include gold, silver, and iron.

Medical Definition:

Superoxide dismutase (SOD) is an enzyme that catalyzes the dismutation of superoxide radicals (O2-) into oxygen (O2) and hydrogen peroxide (H2O2). This essential antioxidant defense mechanism helps protect the body's cells from damage caused by reactive oxygen species (ROS), which are produced during normal metabolic processes and can lead to oxidative stress when their levels become too high.

There are three main types of superoxide dismutase found in different cellular locations:
1. Copper-zinc superoxide dismutase (CuZnSOD or SOD1) - Present mainly in the cytoplasm of cells.
2. Manganese superoxide dismutase (MnSOD or SOD2) - Located within the mitochondrial matrix.
3. Extracellular superoxide dismutase (EcSOD or SOD3) - Found in the extracellular spaces, such as blood vessels and connective tissues.

Imbalances in SOD levels or activity have been linked to various pathological conditions, including neurodegenerative diseases, cancer, and aging-related disorders.

Gamma rays are a type of ionizing radiation that is released from the nucleus of an atom during radioactive decay. They are high-energy photons, with wavelengths shorter than 0.01 nanometers and frequencies greater than 3 x 10^19 Hz. Gamma rays are electromagnetic radiation, similar to X-rays, but with higher energy levels and the ability to penetrate matter more deeply. They can cause damage to living tissue and are used in medical imaging and cancer treatment.

Environmental biodegradation is the breakdown of materials, especially man-made substances such as plastics and industrial chemicals, by microorganisms such as bacteria and fungi in order to use them as a source of energy or nutrients. This process occurs naturally in the environment and helps to break down organic matter into simpler compounds that can be more easily absorbed and assimilated by living organisms.

Biodegradation in the environment is influenced by various factors, including the chemical composition of the substance being degraded, the environmental conditions (such as temperature, moisture, and pH), and the type and abundance of microorganisms present. Some substances are more easily biodegraded than others, and some may even be resistant to biodegradation altogether.

Biodegradation is an important process for maintaining the health and balance of ecosystems, as it helps to prevent the accumulation of harmful substances in the environment. However, some man-made substances, such as certain types of plastics and industrial chemicals, may persist in the environment for long periods of time due to their resistance to biodegradation, leading to negative impacts on wildlife and ecosystems.

In recent years, there has been increasing interest in developing biodegradable materials that can break down more easily in the environment as a way to reduce waste and minimize environmental harm. These efforts have led to the development of various biodegradable plastics, coatings, and other materials that are designed to degrade under specific environmental conditions.

Hypovolemia is a medical condition characterized by a decreased volume of circulating blood in the body, leading to inadequate tissue perfusion and oxygenation. This can occur due to various reasons such as bleeding, dehydration, vomiting, diarrhea, or excessive sweating, which result in a reduced amount of fluid in the intravascular space.

The severity of hypovolemia depends on the extent of fluid loss and can range from mild to severe. Symptoms may include thirst, dry mouth, weakness, dizziness, lightheadedness, confusion, rapid heartbeat, low blood pressure, and decreased urine output. Severe hypovolemia can lead to shock, organ failure, and even death if not treated promptly and effectively.

Recombinant proteins are artificially created proteins produced through the use of recombinant DNA technology. This process involves combining DNA molecules from different sources to create a new set of genes that encode for a specific protein. The resulting recombinant protein can then be expressed, purified, and used for various applications in research, medicine, and industry.

Recombinant proteins are widely used in biomedical research to study protein function, structure, and interactions. They are also used in the development of diagnostic tests, vaccines, and therapeutic drugs. For example, recombinant insulin is a common treatment for diabetes, while recombinant human growth hormone is used to treat growth disorders.

The production of recombinant proteins typically involves the use of host cells, such as bacteria, yeast, or mammalian cells, which are engineered to express the desired protein. The host cells are transformed with a plasmid vector containing the gene of interest, along with regulatory elements that control its expression. Once the host cells are cultured and the protein is expressed, it can be purified using various chromatography techniques.

Overall, recombinant proteins have revolutionized many areas of biology and medicine, enabling researchers to study and manipulate proteins in ways that were previously impossible.

"Drug storage" refers to the proper handling, maintenance, and preservation of medications in a safe and suitable environment to ensure their effectiveness and safety until they are used. Proper drug storage includes:

1. Protecting drugs from light, heat, and moisture: Exposure to these elements can degrade the quality and potency of medications. Therefore, it is recommended to store most drugs in a cool, dry place, away from direct sunlight.

2. Keeping drugs out of reach of children and pets: Medications should be stored in a secure location, such as a locked cabinet or medicine chest, to prevent accidental ingestion or harm to young children and animals.

3. Following storage instructions on drug labels and packaging: Some medications require specific storage conditions, such as refrigeration or protection from freezing. Always follow the storage instructions provided by the manufacturer or pharmacist.

4. Regularly inspecting drugs for signs of degradation or expiration: Check medications for changes in color, consistency, or odor, and discard any that have expired or show signs of spoilage.

5. Storing drugs separately from one another: Keep different medications separate to prevent cross-contamination, incorrect dosing, or accidental mixing of incompatible substances.

6. Avoiding storage in areas with high humidity or temperature fluctuations: Bathrooms, kitchens, and garages are generally not ideal for storing medications due to their exposure to moisture, heat, and temperature changes.

Proper drug storage is crucial for maintaining the safety, efficacy, and stability of medications. Improper storage can lead to reduced potency, increased risk of adverse effects, or even life-threatening situations. Always consult a healthcare professional or pharmacist for specific storage instructions and recommendations.

Drug packaging refers to the process and materials used to enclose, protect, and provide information about a pharmaceutical product. The package may include the container for the medication, such as a bottle or blister pack, as well as any accompanying leaflets or inserts that contain details about the drug's dosage, side effects, and proper use.

The packaging of drugs serves several important functions:

1. Protection: Proper packaging helps to protect the medication from physical damage, contamination, and degradation due to exposure to light, moisture, or air.
2. Child-resistance: Many drug packages are designed to be child-resistant, meaning they are difficult for young children to open but can still be easily accessed by adults.
3. Tamper-evidence: Packaging may also include features that make it easy to detect if the package has been tampered with or opened without authorization.
4. Labeling: Drug packaging must comply with regulatory requirements for labeling, including providing clear and accurate information about the drug's ingredients, dosage, warnings, and precautions.
5. Unit-dose packaging: Some drugs are packaged in unit-dose form, which means that each dose is individually wrapped or sealed in a separate package. This can help to reduce medication errors and ensure that patients receive the correct dosage.
6. Branding and marketing: Drug packaging may also serve as a tool for branding and marketing the product, with distinctive colors, shapes, and graphics that help to differentiate it from similar products.

Catalase is a type of enzyme that is found in many living organisms, including humans. Its primary function is to catalyze the decomposition of hydrogen peroxide (H2O2) into water (H2O) and oxygen (O2). This reaction helps protect cells from the harmful effects of hydrogen peroxide, which can be toxic at high concentrations.

The chemical reaction catalyzed by catalase can be represented as follows:

H2O2 + Catalase → H2O + O2 + Catalase

Catalase is a powerful antioxidant enzyme that plays an important role in protecting cells from oxidative damage. It is found in high concentrations in tissues that produce or are exposed to hydrogen peroxide, such as the liver, kidneys, and erythrocytes (red blood cells).

Deficiency in catalase activity has been linked to several diseases, including cancer, neurodegenerative disorders, and aging. On the other hand, overexpression of catalase has been shown to have potential therapeutic benefits in various disease models, such as reducing inflammation and oxidative stress.

Yttrium is not a medical term itself, but it is a chemical element with the symbol "Y" and atomic number 39. It is a silvery-metallic transition element that is found in rare earth minerals.

In the field of medicine, yttrium is used in the production of some medical devices and treatments. For example, yttrium-90 is a radioactive isotope that is used in the treatment of certain types of cancer, such as liver cancer and lymphoma. Yttrium-90 is often combined with other substances to form tiny beads or particles that can be injected directly into tumors, where they release radiation that helps to destroy cancer cells.

Yttrium aluminum garnet (YAG) lasers are also used in medical procedures such as eye surgery and dental work. These lasers emit a highly concentrated beam of light that can be used to cut or coagulate tissue with great precision.

Overall, while yttrium is not a medical term itself, it does have important applications in the field of medicine.

X-ray microtomography, often referred to as micro-CT, is a non-destructive imaging technique used to visualize and analyze the internal structure of objects with high spatial resolution. It is based on the principles of computed tomography (CT), where multiple X-ray images are acquired at different angles and then reconstructed into cross-sectional slices using specialized software. These slices can be further processed to create 3D visualizations, allowing researchers and clinicians to examine the internal structure and composition of samples in great detail. Micro-CT is widely used in materials science, biology, medicine, and engineering for various applications such as material characterization, bone analysis, and defect inspection.

A capsule is a type of solid pharmaceutical dosage form in which the drug is enclosed in a small shell or container, usually composed of gelatin or other suitable material. The shell serves to protect the drug from degradation, improve its stability and shelf life, and facilitate swallowing by making it easier to consume. Capsules come in various sizes and colors and can contain one or more drugs in powder, liquid, or solid form. They are typically administered orally but can also be used for other routes of administration, such as rectal or vaginal.

Countercurrent distribution is a laboratory technique used in the separation and purification of chemical compounds, including drugs and natural products. It is based on the principle of countercurrent flow, where two immiscible liquids (such as an organic solvent and water) are passed through a series of connected tubes in opposite directions.

In the context of biochemistry and pharmacology, countercurrent distribution is often used to purify and analyze compounds that are present in complex biological mixtures, such as blood or plant extracts. The mixture is first loaded onto the top of the column, and then a series of solvent washes and extractions are performed to separate the components based on their partition coefficients between the two liquids.

The technique allows for the separation of compounds with similar chemical properties but different partition coefficients, making it a valuable tool in the analysis of complex mixtures. The distribution of each component is plotted as a function of the tube number, resulting in a characteristic elution profile that can be used to identify and quantify the compound of interest.

In summary, countercurrent distribution is a laboratory technique for separating and purifying chemical compounds based on their partition coefficients between two immiscible liquids passed through connected tubes in opposite directions.

Complement C1q is a protein that is part of the complement system, which is a group of proteins in the blood that help to eliminate pathogens and damaged cells from the body. C1q is the first component of the classical complement pathway, which is activated by the binding of C1q to antibodies that are attached to the surface of a pathogen or damaged cell.

C1q is composed of six identical polypeptide chains, each containing a collagen-like region and a globular head region. The globular heads can bind to various structures, including the Fc regions of certain antibodies, immune complexes, and some types of cells. When C1q binds to an activating surface, it triggers a series of proteolytic reactions that lead to the activation of other complement components and the formation of the membrane attack complex (MAC), which can punch holes in the membranes of pathogens or damaged cells, leading to their destruction.

In addition to its role in the immune system, C1q has also been found to have roles in various physiological processes, including tissue remodeling, angiogenesis, and the clearance of apoptotic cells. Dysregulation of the complement system, including abnormalities in C1q function, has been implicated in a variety of diseases, including autoimmune disorders, inflammatory diseases, and neurodegenerative conditions.

I'm sorry for any confusion, but "picolines" is not a term commonly used in medical definitions. It is a term that refers to a group of chemical compounds known as methylated benzenes or xylenols. They have some industrial uses, but they are not typically relevant in the context of medical definitions or healthcare. If you have any questions related to medical terminology or health concerns, I'd be happy to try and help with those instead!

Phosphates, in a medical context, refer to the salts or esters of phosphoric acid. Phosphates play crucial roles in various biological processes within the human body. They are essential components of bones and teeth, where they combine with calcium to form hydroxyapatite crystals. Phosphates also participate in energy transfer reactions as phosphate groups attached to adenosine diphosphate (ADP) and adenosine triphosphate (ATP). Additionally, they contribute to buffer systems that help maintain normal pH levels in the body.

Abnormal levels of phosphates in the blood can indicate certain medical conditions. High phosphate levels (hyperphosphatemia) may be associated with kidney dysfunction, hyperparathyroidism, or excessive intake of phosphate-containing products. Low phosphate levels (hypophosphatemia) might result from malnutrition, vitamin D deficiency, or certain diseases affecting the small intestine or kidneys. Both hypophosphatemia and hyperphosphatemia can have significant impacts on various organ systems and may require medical intervention.

A dosage form refers to the physical or pharmaceutical preparation of a drug that determines how it is administered and taken by the patient. The dosage form influences the rate and extent of drug absorption, distribution, metabolism, and excretion in the body, which ultimately affects the drug's therapeutic effectiveness and safety profile.

There are various types of dosage forms available, including:

1. Solid dosage forms: These include tablets, capsules, caplets, and powders that are intended to be swallowed or chewed. They may contain a single active ingredient or multiple ingredients in a fixed-dose combination.
2. Liquid dosage forms: These include solutions, suspensions, emulsions, and syrups that are intended to be taken orally or administered parenterally (e.g., intravenously, intramuscularly, subcutaneously).
3. Semi-solid dosage forms: These include creams, ointments, gels, pastes, and suppositories that are intended to be applied topically or administered rectally.
4. Inhalation dosage forms: These include metered-dose inhalers (MDIs), dry powder inhalers (DPIs), and nebulizers that are used to deliver drugs directly to the lungs.
5. Transdermal dosage forms: These include patches, films, and sprays that are applied to the skin to deliver drugs through the skin into the systemic circulation.
6. Implantable dosage forms: These include surgically implanted devices or pellets that release drugs slowly over an extended period.

The choice of dosage form depends on various factors, such as the drug's physicochemical properties, pharmacokinetics, therapeutic indication, patient population, and route of administration. The goal is to optimize the drug's efficacy and safety while ensuring patient compliance and convenience.

Succinimides are a group of anticonvulsant medications used to treat various types of seizures. They include drugs such as ethosuximide, methsuximide, and phensuximide. These medications work by reducing the abnormal electrical activity in the brain that leads to seizures.

The name "succinimides" comes from their chemical structure, which contains a five-membered ring containing two nitrogen atoms and a carbonyl group. This structure is similar to that of other anticonvulsant medications, such as barbiturates, but the succinimides have fewer side effects and are less likely to cause sedation or respiratory depression.

Succinimides are primarily used to treat absence seizures, which are characterized by brief periods of staring and lack of responsiveness. They may also be used as adjunctive therapy in the treatment of generalized tonic-clonic seizures and other types of seizures.

Like all medications, succinimides can cause side effects, including nausea, vomiting, dizziness, headache, and rash. More serious side effects, such as blood dyscrasias, liver toxicity, and Stevens-Johnson syndrome, are rare but have been reported. It is important for patients taking succinimides to be monitored regularly by their healthcare provider to ensure safe and effective use of the medication.

Hydrophobic interactions: These are the interactions that occur between non-polar molecules or groups of atoms in an aqueous environment, leading to their association or aggregation. The term "hydrophobic" means "water-fearing" and describes the tendency of non-polar substances to repel water. When non-polar molecules or groups are placed in water, they tend to clump together to minimize contact with the polar water molecules. These interactions are primarily driven by the entropy increase of the system as a whole, rather than energy minimization. Hydrophobic interactions play crucial roles in various biological processes, such as protein folding, membrane formation, and molecular self-assembly.

Hydrophilic interactions: These are the interactions that occur between polar molecules or groups of atoms and water molecules. The term "hydrophilic" means "water-loving" and describes the attraction of polar substances to water. When polar molecules or groups are placed in water, they can form hydrogen bonds with the surrounding water molecules, which helps solvate them. Hydrophilic interactions contribute to the stability and functionality of various biological systems, such as protein structure, ion transport across membranes, and enzyme catalysis.

Intravenous injections are a type of medical procedure where medication or fluids are administered directly into a vein using a needle and syringe. This route of administration is also known as an IV injection. The solution injected enters the patient's bloodstream immediately, allowing for rapid absorption and onset of action. Intravenous injections are commonly used to provide quick relief from symptoms, deliver medications that are not easily absorbed by other routes, or administer fluids and electrolytes in cases of dehydration or severe illness. It is important that intravenous injections are performed using aseptic technique to minimize the risk of infection.

Nanospheres are defined in the medical context as tiny, spherical particles that have a diameter in the nanometer range (typically between 1 to 1000 nm). They can be made up of various materials such as polymers, lipids, metals or ceramics. Nanospheres have unique properties due to their small size and large surface area, making them useful for a variety of medical applications including drug delivery, diagnostic imaging, and tissue engineering.

In the field of drug delivery, nanospheres can be used to encapsulate drugs and deliver them to specific sites in the body, improving the efficacy and safety of treatments. They can also be designed to target certain cell types or release their cargo in response to specific stimuli. Additionally, nanospheres can be used as contrast agents for medical imaging techniques such as magnetic resonance imaging (MRI) and computed tomography (CT).

Overall, nanospheres are a promising tool in the development of new medical technologies and therapies.

Osmolar concentration is a measure of the total number of solute particles (such as ions or molecules) dissolved in a solution per liter of solvent (usually water), which affects the osmotic pressure. It is expressed in units of osmoles per liter (osmol/L). Osmolarity and osmolality are related concepts, with osmolarity referring to the number of osmoles per unit volume of solution, typically measured in liters, while osmolality refers to the number of osmoles per kilogram of solvent. In clinical contexts, osmolar concentration is often used to describe the solute concentration of bodily fluids such as blood or urine.

Differential scanning calorimetry (DSC) is a thermoanalytical technique used to measure the difference in the amount of heat required to increase the temperature of a sample and a reference as a function of temperature. It is commonly used to study phase transitions, such as melting, crystallization, and glass transition, as well as chemical reactions, in a wide range of materials, including polymers, pharmaceuticals, and biological samples.

In DSC, the sample and reference are placed in separate pans and heated at a constant rate. The heat flow required to maintain this heating rate is continuously measured for both the sample and the reference. As the temperature of the sample changes during a phase transition or chemical reaction, the heat flow required to maintain the same heating rate will change relative to the reference. This allows for the measurement of the enthalpy change (ΔH) associated with the transition or reaction.

Differential scanning calorimetry is a powerful tool in materials science and research as it can provide information about the thermal behavior, stability, and composition of materials. It can also be used to study the kinetics of reactions and phase transitions, making it useful for optimizing processing conditions and developing new materials.

Foreign-body migration is a medical condition that occurs when a foreign object, such as a surgical implant, tissue graft, or trauma-induced fragment, moves from its original position within the body to a different location. This displacement can cause various complications and symptoms depending on the type of foreign body, the location it migrated to, and the individual's specific physiological response.

Foreign-body migration may result from insufficient fixation or anchoring of the object during implantation, inadequate wound healing, infection, or an inflammatory reaction. Symptoms can include pain, swelling, redness, or infection at the new location, as well as potential damage to surrounding tissues and organs. Diagnosis typically involves imaging techniques like X-rays, CT scans, or MRIs to locate the foreign body, followed by a surgical procedure to remove it and address any resulting complications.

Free radical scavengers, also known as antioxidants, are substances that neutralize or stabilize free radicals. Free radicals are highly reactive atoms or molecules with unpaired electrons, capable of causing damage to cells and tissues in the body through a process called oxidative stress. Antioxidants donate an electron to the free radical, thereby neutralizing it and preventing it from causing further damage. They can be found naturally in foods such as fruits, vegetables, and nuts, or they can be synthesized and used as dietary supplements. Examples of antioxidants include vitamins C and E, beta-carotene, and selenium.

'Alloys' is not a medical term. It is a term used in materials science and engineering to describe a mixture or solid solution composed of two or more elements, at least one of which is a metal. The components are typically present in significant amounts (>1% by weight). The properties of alloys, such as their strength, durability, and corrosion resistance, often differ from those of the constituent elements.

While not directly related to medicine, some alloys do have medical applications. For example, certain alloys are used in orthopedic implants, dental restorations, and other medical devices due to their desirable properties such as biocompatibility, strength, and resistance to corrosion.

Polynucleotide ligases are enzymes that catalyze the formation of phosphodiester bonds between the 3'-hydroxyl and 5'-phosphate ends of two adjacent nucleotides in a polynucleotide chain, such as DNA. These enzymes play a crucial role in the repair and replication of DNA, by sealing breaks or gaps in the sugar-phosphate backbone of the DNA molecule. They are essential for maintaining genomic integrity and stability, and have been widely used in molecular biology research and biotechnological applications, including DNA sequencing, cloning, and genetic engineering. Polynucleotide ligases can be found in various organisms, from bacteria to humans, and they typically require ATP or NAD+ as a cofactor for the ligation reaction.

"Cattle" is a term used in the agricultural and veterinary fields to refer to domesticated animals of the genus *Bos*, primarily *Bos taurus* (European cattle) and *Bos indicus* (Zebu). These animals are often raised for meat, milk, leather, and labor. They are also known as bovines or cows (for females), bulls (intact males), and steers/bullocks (castrated males). However, in a strict medical definition, "cattle" does not apply to humans or other animals.

The femur is the medical term for the thigh bone, which is the longest and strongest bone in the human body. It connects the hip bone to the knee joint and plays a crucial role in supporting the weight of the body and allowing movement during activities such as walking, running, and jumping. The femur is composed of a rounded head, a long shaft, and two condyles at the lower end that articulate with the tibia and patella to form the knee joint.

In medical terms, "gels" are semi-solid colloidal systems in which a solid phase is dispersed in a liquid medium. They have a viscous consistency and can be described as a cross between a solid and a liquid. The solid particles, called the gel network, absorb and swell with the liquid component, creating a system that has properties of both solids and liquids.

Gels are widely used in medical applications such as wound dressings, drug delivery systems, and tissue engineering due to their unique properties. They can provide a moist environment for wounds to heal, control the release of drugs over time, and mimic the mechanical properties of natural tissues.

Periodontal splints are dental devices used to stabilize and support loose teeth that have been weakened by periodontal disease (gum disease). These splints can be made from various materials such as acrylic, metal wire, or fiber-reinforced composites. They function by connecting the affected tooth or teeth to adjacent stable teeth, creating a fixed unit that helps distribute forces evenly during biting and chewing, reducing mobility and promoting healing of the periodontal tissues.

There are different types of periodontal splints, including:

1. Intra-coronal splints: These are fixed to the inside (lingual) surface of the affected teeth using dental cement or adhesive. They typically involve the use of a metal wire that is bonded to the inner surfaces of the loose teeth and connected to stable neighboring teeth.
2. Extra-coronal splints: These are fixed to the outside (labial or buccal) surface of the affected teeth using dental cement or adhesive. They usually consist of a metal wire or fiber-reinforced composite material that encircles the loose teeth and is connected to stable neighboring teeth.
3. Removable splints: These are similar to dental appliances such as dentures or orthodontic retainers, and they can be removed for cleaning and maintenance. They typically consist of an acrylic base with metal clasps or wires that hook onto the affected teeth and stable neighboring teeth.

The choice of periodontal splint depends on various factors, including the number of loose teeth, their location in the mouth, the severity of mobility, patient preferences, and oral hygiene practices. Periodontal splints are often used in conjunction with other periodontal treatments, such as scaling and root planing, to improve treatment outcomes and promote long-term dental health.

Polycarboxylate cement is not a medical term, but rather refers to a type of hydraulic cement used in construction and engineering. It's a specialized kind of cement that contains polycarboxylate-based high-range water-reducing admixtures (HRWRAs). These admixtures improve the workability and durability of concrete by reducing the amount of water needed for mixing while maintaining or even enhancing the strength of the final product.

The use of polycarboxylate cement is not directly related to medical practice or patient care, but it may have indirect implications in medical fields such as construction safety, environmental health, and industrial medicine.

Diffusion, in the context of medicine and physiology, refers to the process by which molecules move from an area of high concentration to an area of low concentration until they are evenly distributed throughout a space or solution. This passive transport mechanism does not require energy and relies solely on the random motion of particles. Diffusion is a vital process in many biological systems, including the exchange of gases in the lungs, the movement of nutrients and waste products across cell membranes, and the spread of drugs and other substances throughout tissues.

Gastrointestinal transit refers to the movement of food, digestive secretions, and waste products through the gastrointestinal tract, from the mouth to the anus. This process involves several muscles and nerves that work together to propel the contents through the stomach, small intestine, large intestine, and rectum.

The transit time can vary depending on factors such as the type and amount of food consumed, hydration levels, and overall health. Abnormalities in gastrointestinal transit can lead to various conditions, including constipation, diarrhea, and malabsorption. Therefore, maintaining normal gastrointestinal transit is essential for proper digestion, nutrient absorption, and overall health.

Bacterial transformation is a natural process by which exogenous DNA is taken up and incorporated into the genome of a bacterial cell. This process was first discovered in 1928 by Frederick Griffith, who observed that dead virulent bacteria could transfer genetic material to live avirulent bacteria, thereby conferring new properties such as virulence to the recipient cells.

The uptake of DNA by bacterial cells typically occurs through a process called "competence," which can be either naturally induced under certain environmental conditions or artificially induced in the laboratory using various methods. Once inside the cell, the exogenous DNA may undergo recombination with the host genome, resulting in the acquisition of new genes or the alteration of existing ones.

Bacterial transformation has important implications for both basic research and biotechnology. It is a powerful tool for studying gene function and for engineering bacteria with novel properties, such as the ability to produce valuable proteins or degrade environmental pollutants. However, it also poses potential risks in the context of genetic engineering and biocontainment, as transformed bacteria may be able to transfer their newly acquired genes to other organisms in the environment.

I'm sorry for any confusion, but "Polyvinyl Chloride" (PVC) is not a medical term. It is a type of synthetic plastic polymer material. PVC is commonly used in various industrial, commercial, and consumer products, such as pipes, cable insulation, clothing, and inflatable items.

If you have any medical concerns or questions, please provide them, and I would be happy to help you find a relevant answer.

Dimethylformamide (DMF) is an organic compound with the formula (CH3)2NCHO. It is a colorless, hygroscopic liquid with a mild, characteristic odor. DMF is miscible with water and most organic solvents. It is widely used as a commercial solvent, due to its ability to dissolve both polar and non-polar compounds.

In the medical field, exposure to dimethylformamide can occur through inhalation, skin contact, or ingestion during its production, use, or disposal. Acute exposure to high levels of DMF may cause irritation to the eyes, skin, and respiratory tract. Chronic exposure has been associated with liver damage, neurological effects, and reproductive issues in both humans and animals.

It is essential to handle dimethylformamide with appropriate personal protective equipment (PPE), including gloves, safety glasses, and lab coats, to minimize exposure. Engineering controls, such as fume hoods, should also be used when working with this chemical to ensure adequate ventilation and reduce the risk of inhalation exposure.

I believe there may be some confusion in your question. Maleic anhydride is not a medical term, but rather a chemical compound with the formula C2H2O3. It is a white crystalline solid that is used in industrial applications such as the production of polymers and resins.

If you are asking about a medical condition related to exposure or sensitivity to maleic anhydride, I would recommend consulting a medical professional for accurate information. However, in general, inhalation or skin contact with maleic anhydride can cause irritation and respiratory symptoms, and prolonged exposure may lead to more serious health effects. People with sensitivities or allergies to the compound may experience more severe reactions.

A cell line is a culture of cells that are grown in a laboratory for use in research. These cells are usually taken from a single cell or group of cells, and they are able to divide and grow continuously in the lab. Cell lines can come from many different sources, including animals, plants, and humans. They are often used in scientific research to study cellular processes, disease mechanisms, and to test new drugs or treatments. Some common types of human cell lines include HeLa cells (which come from a cancer patient named Henrietta Lacks), HEK293 cells (which come from embryonic kidney cells), and HUVEC cells (which come from umbilical vein endothelial cells). It is important to note that cell lines are not the same as primary cells, which are cells that are taken directly from a living organism and have not been grown in the lab.

Polylysine is not a medical term per se, but it is a term used in biochemistry and medicine. Polylysine refers to a synthetic polymer of the amino acid lysine, which is linked together by peptide bonds to form a long, unbranched chain. It is often used in laboratory settings as a tool for scientific research, particularly in the study of protein-protein interactions and cellular uptake mechanisms.

In medicine, polylysine has been explored as a potential drug delivery vehicle, as it can be chemically modified to carry drugs or other therapeutic agents into cells. However, its use in clinical settings is not yet widespread. It's important to note that the term 'polylysine' itself does not have a specific medical definition, but rather refers to a class of biochemical compounds with certain properties.

Nanotechnology is not a medical term per se, but it is a field of study with potential applications in medicine. According to the National Nanotechnology Initiative, nanotechnology is defined as "the understanding and control of matter at the nanoscale, at dimensions between approximately 1 and 100 nanometers, where unique phenomena enable novel applications."

In the context of medicine, nanotechnology has the potential to revolutionize the way we diagnose, treat, and prevent diseases. Nanomedicine involves the use of nanoscale materials, devices, or systems for medical applications. These can include drug delivery systems that target specific cells or tissues, diagnostic tools that detect biomarkers at the molecular level, and tissue engineering strategies that promote regeneration and repair.

While nanotechnology holds great promise for medicine, it is still a relatively new field with many challenges to overcome, including issues related to safety, regulation, and scalability.

Microspheres are tiny, spherical particles that range in size from 1 to 1000 micrometers in diameter. They are made of biocompatible and biodegradable materials such as polymers, glass, or ceramics. In medical terms, microspheres have various applications, including drug delivery systems, medical imaging, and tissue engineering.

In drug delivery, microspheres can be used to encapsulate drugs and release them slowly over time, improving the efficacy of the treatment while reducing side effects. They can also be used for targeted drug delivery, where the microspheres are designed to accumulate in specific tissues or organs.

In medical imaging, microspheres can be labeled with radioactive isotopes or magnetic materials and used as contrast agents to enhance the visibility of tissues or organs during imaging procedures such as X-ray, CT, MRI, or PET scans.

In tissue engineering, microspheres can serve as a scaffold for cell growth and differentiation, promoting the regeneration of damaged tissues or organs. Overall, microspheres have great potential in various medical applications due to their unique properties and versatility.

Cell survival refers to the ability of a cell to continue living and functioning normally, despite being exposed to potentially harmful conditions or treatments. This can include exposure to toxins, radiation, chemotherapeutic drugs, or other stressors that can damage cells or interfere with their normal processes.

In scientific research, measures of cell survival are often used to evaluate the effectiveness of various therapies or treatments. For example, researchers may expose cells to a particular drug or treatment and then measure the percentage of cells that survive to assess its potential therapeutic value. Similarly, in toxicology studies, measures of cell survival can help to determine the safety of various chemicals or substances.

It's important to note that cell survival is not the same as cell proliferation, which refers to the ability of cells to divide and multiply. While some treatments may promote cell survival, they may also inhibit cell proliferation, making them useful for treating diseases such as cancer. Conversely, other treatments may be designed to specifically target and kill cancer cells, even if it means sacrificing some healthy cells in the process.

Sprague-Dawley rats are a strain of albino laboratory rats that are widely used in scientific research. They were first developed by researchers H.H. Sprague and R.C. Dawley in the early 20th century, and have since become one of the most commonly used rat strains in biomedical research due to their relatively large size, ease of handling, and consistent genetic background.

Sprague-Dawley rats are outbred, which means that they are genetically diverse and do not suffer from the same limitations as inbred strains, which can have reduced fertility and increased susceptibility to certain diseases. They are also characterized by their docile nature and low levels of aggression, making them easier to handle and study than some other rat strains.

These rats are used in a wide variety of research areas, including toxicology, pharmacology, nutrition, cancer, and behavioral studies. Because they are genetically diverse, Sprague-Dawley rats can be used to model a range of human diseases and conditions, making them an important tool in the development of new drugs and therapies.

Artificial membranes are synthetic or man-made materials that possess properties similar to natural biological membranes, such as selective permeability and barrier functions. These membranes can be designed to control the movement of molecules, ions, or cells across them, making them useful in various medical and biotechnological applications.

Examples of artificial membranes include:

1. Dialysis membranes: Used in hemodialysis for patients with renal failure, these semi-permeable membranes filter waste products and excess fluids from the blood while retaining essential proteins and cells.
2. Hemofiltration membranes: Utilized in extracorporeal circuits to remove larger molecules, such as cytokines or inflammatory mediators, from the blood during critical illnesses or sepsis.
3. Drug delivery systems: Artificial membranes can be used to encapsulate drugs, allowing for controlled release and targeted drug delivery in specific tissues or cells.
4. Tissue engineering: Synthetic membranes serve as scaffolds for cell growth and tissue regeneration, guiding the formation of new functional tissues.
5. Biosensors: Artificial membranes can be integrated into biosensing devices to selectively detect and quantify biomolecules, such as proteins or nucleic acids, in diagnostic applications.
6. Microfluidics: Artificial membranes are used in microfluidic systems for lab-on-a-chip applications, enabling the manipulation and analysis of small volumes of fluids for various medical and biological purposes.

Tantalum is not a medical term, but a chemical element with the symbol Ta and atomic number 73. It is a rare, hard, blue-gray, lustrous transition metal that is highly corrosion-resistant. In the field of medicine, tantalum is often used in the production of medical implants such as surgical pins, screws, plates, and stents due to its biocompatibility and resistance to corrosion. For example, tantalum mesh is used in hernia repair and tantalum rods are used in spinal fusion surgery.

Methylcellulose is a semisynthetic, inert, viscous, and tasteless white powder that is soluble in cold water but not in hot water. It is derived from cellulose through the process of methylation. In medical contexts, it is commonly used as a bulk-forming laxative to treat constipation, as well as a lubricant in ophthalmic solutions and a suspending agent in pharmaceuticals.

When mixed with water, methylcellulose forms a gel-like substance that can increase stool volume and promote bowel movements. It is generally considered safe for most individuals, but like any medication or supplement, it should be used under the guidance of a healthcare provider.

In the context of medical terminology, "powders" do not have a specific technical definition. However, in a general sense, powders refer to dry, finely ground or pulverized solid substances that can be dispersed in air or liquid mediums. In medicine, powders may include various forms of medications, such as crushed tablets or capsules, which are intended to be taken orally, mixed with liquids, or applied topically. Additionally, certain medical treatments and therapies may involve the use of medicated powders for various purposes, such as drying agents, abrasives, or delivery systems for active ingredients.

Experimental implants refer to medical devices that are not yet approved by regulatory authorities for general use in medical practice. These are typically being tested in clinical trials to evaluate their safety and efficacy. The purpose of experimental implants is to determine whether they can be used as a viable treatment option for various medical conditions. They may include, but are not limited to, devices such as artificial joints, heart valves, or spinal cord stimulators that are still in the developmental or testing stage. Participation in clinical trials involving experimental implants is voluntary and usually requires informed consent from the patient.

Asparaginase is a medication that is used in the treatment of certain types of cancer, such as acute lymphoblastic leukemia (ALL) and non-Hodgkin lymphoma (NHL). It is an enzyme that breaks down the amino acid asparagine, which is a building block of proteins. Some cancer cells are unable to produce their own asparagine and rely on obtaining it from the bloodstream. By reducing the amount of asparagine in the blood, asparaginase can help to slow or stop the growth of these cancer cells.

Asparaginase is usually given as an injection into a muscle (intramuscularly) or into a vein (intravenously). It may be given alone or in combination with other chemotherapy drugs. The specific dosage and duration of treatment will depend on the individual's medical history, the type and stage of cancer being treated, and how well the person tolerates the medication.

Like all medications, asparaginase can cause side effects. Common side effects include nausea, vomiting, loss of appetite, and changes in liver function tests. Less common but more serious side effects may include allergic reactions, pancreatitis, and blood clotting problems. It is important for patients to discuss the potential risks and benefits of asparaginase with their healthcare provider before starting treatment.

Polymerization is not exclusively a medical term, but it is widely used in the field of medical sciences, particularly in areas such as biochemistry and materials science. In a broad sense, polymerization refers to the process by which small molecules, known as monomers, chemically react and join together to form larger, more complex structures called polymers.

In the context of medical definitions:

Polymerization is the chemical reaction where multiple repeating monomer units bind together covalently (through strong chemical bonds) to create a long, chain-like molecule known as a polymer. This process can occur naturally or be induced artificially through various methods, depending on the type of monomers and desired polymer properties.

In biochemistry, polymerization plays an essential role in forming important biological macromolecules such as DNA, RNA, proteins, and polysaccharides. These natural polymers are built from specific monomer units—nucleotides for nucleic acids (DNA and RNA), amino acids for proteins, and sugars for polysaccharides—that polymerize in a highly regulated manner to create the final functional structures.

In materials science, synthetic polymers are often created through polymerization for various medical applications, such as biocompatible materials, drug delivery systems, and medical devices. These synthetic polymers can be tailored to have specific properties, such as degradation rates, mechanical strength, or hydrophilicity/hydrophobicity, depending on the desired application.

An enema is a medical procedure in which liquid is introduced into the lower part of the large intestine, specifically the sigmoid colon or rectum, through the anus using a special device called an enema kit. The liquid used can be plain water, saline solution, or a medicated solution, and it is typically retained for a short period of time before being expelled.

The purpose of an enema may vary, but it is often used to relieve constipation, prepare the bowel for medical procedures such as colonoscopy, or administer medications or nutrients that cannot be taken by mouth. Enemas can also be used for therapeutic purposes, such as to stimulate the immune system or promote relaxation.

It is important to follow proper instructions when administering an enema to avoid injury or discomfort. Possible side effects of enemas may include cramping, bloating, nausea, or electrolyte imbalances. If you have any health concerns or conditions that may be affected by an enema, it is recommended to consult with a healthcare professional before using one.

... or polythene (abbreviated PE; IUPAC name polyethene or poly(methylene)) is the most commonly produced plastic. It ... Polyethylene (other than cross-linked polyethylene) usually can be dissolved at elevated temperatures in aromatic hydrocarbons ... including very-low-density polyethylene and linear low-density polyethylene. Such resins, in the form of UHMWPE fibers, have ( ... These temperatures vary strongly with the type of polyethylene, but the theoretical upper limit of melting of polyethylene is ...
... often shortened to poly, as in 'poly relationship' Polyethylene, often shortened to poly, as in 'poly gloves' Polyspheric or ... Look up poly, -poly, poly-, or πολύς in Wiktionary, the free dictionary. Poly, from the Greek πολύς meaning "many" or "much", ... locally known as Poly Poly (website), a website by Google Polynesian, often shortened to poly, as in 'Poly people are also ... "The Poly" Poly-1, a 1980s desktop computer designed in New Zealand for educational use Warren CP-1, also called Miss Poly, a ...
... in The Complete Works of Michael Drayton, vol. 3 (London, 1876) The Children's Poly-Olbion: A Heritage Lottery ... The Poly-Olbion is divided into thirty songs, written in alexandrine couplets, consisting in total of almost 15,000 lines of ... The Poly-Olbion is a topographical poem describing England and Wales. Written by Michael Drayton (1563-1631) and published in ... Because of its length and its author's conflicting goals the Poly-Olbion was almost never read as a whole, but is an important ...
DiLauro, Anthony M.; Phillips, Scott T. (2015). "End-capped poly(4,5-dichlorophthalaldehyde): a stable self-immolative poly( ... Poly(phthalaldehyde) was first reported in 1967 by Chuji Aso and Sanae Tagami from the department of Organic Synthesis at ... Poly(phthalaldehyde), abbreviated as PPA, is a metastable stimuli-responsive polymer first synthesized in 1967. It has garnered ... While LCP was the first and sole method used to produce poly(phthalaldehyde), its usage nowadays has dramatically decreased in ...
Polyethylene oxide, or high-molecular-weight polyethylene glycol, is synthesized by suspension polymerization. It is necessary ... Polyethylene glycol, Chemindustry.ru "PEG 4000, 6000, 8000, 12000 , Polyethylene glycol". www.venus-goa.com. Retrieved 19 ... Nalam PC, Clasohm JN, Mashaghi A, Spencer ND (2009). "Macrotribological Studies of Poly(L-lysine)-graft-Poly(ethylene glycol) ... Wikimedia Commons has media related to Poly(ethylene glycol). Wikimedia Commons has media related to Polyethylene glycols. ...
There remains interest in the Poly with an ongoing Poly Preservation Project. Despite strong support from teachers for the Poly ... The Poly-1 was a desktop computer designed in New Zealand for educational use. The Poly-1 was developed in 1980 by Neil Scott ... A Poly 2 model with a separate keyboard and monitor, and Poly C designed for the Chinese market were produced, but in much ... The Poly Preservation Project. University of Otago. Museum of Transport and Technology (MOTAT) - Computer [Poly1] The Poly ...
Completes Acquisition of Poly". "SEC Info - Polycom Inc - '8-K' for 6/11/97 - EX-20.1". www.secinfo.com. Polycom to Acquire ... Poly, formerly Polycom, a part of HP Inc., is an American multinational corporation that develops video, voice and content ... "Meet Poly: Plantronics + Polycom Relaunches to Focus on Driving the Power of Many". Retrieved 18 March 2019. Hinman, Brian. "Co ... In 2018 Polycom was acquired by Plantronics and in 2019 the name of the combined entity was changed to Poly. In 2022, it was ...
... shares of Poly Property, via mainland China incorporated "Poly Southern Group Co., Ltd." (Chinese: 保利南方集团有限公司).: 126 As Poly ... Poly (Hong Kong) Holdings itself is a subsidiary of state-owned China Poly Group; China Poly Group owned an additional 6.93% ... Poly (Hong Kong) Investments Limited Archived 26 January 2013 at archive.today irasia.com "2010 Annual Report" (PDF). Poly ( ... In 2012 the company renamed again as Poly Property Group Co., Ltd.. Poly Property entered Hong Kong property market in 2014 by ...
... was, at one time, the largest chain of travel agents in the United Kingdom. The company originated from two ... Lunn Poly became an early trade innovator, by splitting its leisure and business travel. High street shops concentrated on ... Lunn Poly was famous for a long-running advertising campaign on television. These adverts featured people looking into what ... "Lunn Poly going away for good". Travel. 6 November 2004. Retrieved 22 September 2019. "No matter how many awards they have ...
... is the debut solo studio album by American hip hop musician John Forté. It was released on June 23, 1998 on Ruffhouse ... John Forté - Poly Sci at Discogs (list of releases) (Articles with short description, Short description is different from ... "Poly Sci - John Forté , Songs, Reviews, Credits , AllMusic". AllMusic. Retrieved November 18, 2020. Christgau, Robert. "Robert ...
... is a polygon mesh in 3D computer graphics that has a relatively small number of polygons. Low poly meshes occur in ... There is no defined threshold for a mesh to be low poly; low poly is always a relative term and depends on (amongst other ... The term low poly is used in both a technical and a descriptive sense; the number of polygons in a mesh is an important factor ... The low poly style seeks to highlight the idea that the world can be represented by a composition of shapes, which makes it a ...
"Poly Ugarte se suma a lista de renuncias en Asamblea Nacional por elecciones de 2019" [Poly Ugarte Joins the List of ... "Poly Ugarte y su cruzada contra el cáncer" [Poly Ugarte and Her Crusade Against Cancer]. Revista Familia (in Spanish). Archived ... Blanca Rosana Ugarte Guzmán (born 1959), better known as Poly Ugarte, is an Ecuadorian activist, lawyer, and politician. Poly ... Ochoa, Karina (March 5, 2015). "Poly Ugarte rompe fronteras al organizar el Lazo Humano en Rumichaca" [Poly Ugarte Breaks ...
There are a variety of methods for producing Polyethylene wax. Polyethylene wax can be made by direct polymerization of ... Polyethylene wax can be used as a disperant, slip agent, resin additive, and mold release agent. As an oxidised product, OPEW ... Volatiles in these un refined waxes can also account for significant yield loss during processing "HI-WAX™ Polyethylene Wax". ... "Scientific Opinion on the re-evaluation of oxidised polyethylene wax (E 914) as a food additive". EFSA Journal. 13 (6): 4145. ...
... is the studio band of Ghost Box Records co-founder Jim Jupp. Jupp is the main composer and producer and also plays ... Belbury Poly on Ghost Box Quietus Interview with Julian House on Ghost Box The Sunday Times article on contemporary electronic ... Jim Jupp has released EPs, singles and six albums on Ghost Box under the name of Belbury Poly, and has released a dark ambient ... Jupp has spoken about Belbury Poly and the other artists on Ghost Box as sounding like the misremembered past of a parallel ...
... is an album by American jazz drummer Elvin Jones recorded in 1969 and released on the Blue Note label. Some of ...
... at the Killer List of Videogames BBC article about Poly Play PolyPlay.de - German Website about Poly-Play, here you ... Poly Play VEB Polytechnik - 1986 - RetroGames e.V. (last access 2011-01-20) "Poly-Play videogame machine". Computerspielemuseum ... Poly-Play ran on a U880, a clone of the Zilog Z80 CPU, which was clocked at 2.457600 MHz and a custom sound chip. Its display ... Poly-Play is an arcade cabinet developed in East Germany in 1985; it is the only such machine to originate in the GDR. It was ...
... at IMDb Natasha Poly at Fashion Model Directory Natasha Poly on Models.com Natasha Poly on Instagram (CS1 French- ... Poly married Dutch businessman Peter Bakker on 16 April 2011 in Saint-Tropez. On 13 May 2013 Poly gave birth to a daughter ... Since 2004, Poly has appeared in prominent high-fashion advertisement campaigns, magazine covers and on runways. Poly ... Poly was one of the faces to headline one of the fourteen covers of V magazine's September 2008 issue. Each cover featured a ...
... is a brand of multipurpose polyurethane filler adhesive sealant originally branded as RayCrete. EZ-Poly is a structural ... EZ-Poly is good to use with concrete, wood, stone and other porous materials and can be used with etched plastics, metals and ... EZ-Poly is a two-part compound. The product experiences minor expansion while curing depending on moisture level but does not ... RayCrete and EZ-Poly were manufactured by Valiant Technologies, Inc. and sold throughout the world from 1996 to 2008. Valiant ...
... (aka EPE foam) refers to foams made from polyethylene. Typically it is made from expanded pellets ('EPE ... Base polymer for EPE foams range from Low-density polyethylene (LDPE) to High-density polyethylene (HDPE). Expanded ... Consumption of polyethylene for PE foam was estimated at 114x106 kg in 2001. The majority was used for non-crosslinked foams, ... Polyethylene bead foams (including) EPE can be used to replace both polystyrene foam, and both rigid and flexible polyurethane ...
... was discovered by H. N. Stokes in the 19th century, and at that time its superior properties over ... Poly(dichlorophosphazene) is not water-resistant. However, it is soluble in organic solvents such as THF and benzene, wherein ... "Poly(dichlorophosphazene)". Sigma-Aldrich. Hans Rytger Kricheldorf (1991), Handbook of Polymer Synthesis Mario Gleria, Roger De ... Poly(dichlorophosphazene), also called dichlorophosphazine polymer or phosphonitrilechloride polymer, is a chemical compound ...
"Dry Cactus announces Poly Bridge 3, launching May 30th". gamespress.com. 16 March 2023. Retrieved 17 March 2023. "'Poly Bridge ... "Poly Bridge 2 PC". Metacritic. Retrieved 17 March 2023. "Dry Cactus announces Poly Bridge 3, launching May 30th". gamespress. ... The series has sold over 6 million copies prior to the release of Poly Bridge 3. "Poly Bridge". All Music. Retrieved 2023-07-25 ... Poly Bridge is a simulation-puzzle video game series developed and published by Dry Cactus. The franchise was introduced in ...
Petrella, Tony (October 19, 1971). "Orange Bowl's Poly-Turf: troubles and questions". Palm Beach Post. p. B5. "Poly-Turf...down ... "Orange Bowl taking out Poly Turf". Lawrence Journal World. Kansas. February 14, 1976. p. 17. "Poly-Turf for Legion". The ... MiamiSouthpaw.blogspot.com - "Ghosts of Orange Bowl Poly-Turf" - 2009-08 "Orange Bowl sticks with Poly-Turf". Miami News. ... Poly-Turf was installed at the city-owned stadium in 1970, and utilized for six seasons. The stadium was used for both college ...
... is an immunostimulant. It is polyinosinic-polycytidylic acid (poly I:C) mixed with the stabilizers ... Poly I:C is a ligand for toll like receptor-3, which usually triggers on the structurally similar double-stranded RNA present ... National Cancer Institute: poly ICLC v t e (Chemicals that do not have a ChemSpider ID assigned, Chemical articles without CAS ... 2007). "Toll like receptor-3 ligand poly-ICLC promotes the efficacy of peripheral vaccinations with tumor antigen-derived ...
A poly-cap is a small rubber polyethylene bushing used to create smooth joints, or to keep something in place without glue in ...
"Poly Styrene". Poly Styrene. Retrieved 26 April 2011. Ghoulish - Poly Styrene , Songs, Reviews, Credits , AllMusic, retrieved ... Wikimedia Commons has media related to Poly Styrene. Poly Styrene's official website Poly's Punky Party, personal site ( ... Fullerton, Jamie (26 April 2011). "X-Ray Spex's Poly Styrene dies of cancer". NME. Retrieved 26 April 2011. "Poly Styrene, X- ... Sweeting, Adam (26 April 2011). "Poly Styrene obituary". The Guardian. "Music Obituaries: Poly Styrene". The Daily Telegraph. ...
In August 2016, GCL-Poly bought $150 million worth assets of SunEdison. In April 2017, GCL-Poly invested over $832 million in ... GCL-Poly listed at the Hong Kong Stock Exchange in 2007. The IPO price range was 3.3 to HK $4.1, raising up to 1.181 billion ... November 2014, GCL-Poly plans a total consideration of 10.1 billion yuan to Zhu Gong Shan and its connected investors to sell ... "GCL-Poly Energy Holdings Limited". Archived from the original on 2011-01-18. Retrieved 2010-02-02. "協鑫配售超額5倍眾安 $6737入場". Apple ...
... (Chinese: 保利科技有限公司), sometimes abbreviated as PolyTech, a subsidiary of China Poly Group Corporation, is a ... As a traditional pillar industry of Poly Group Corp., the international trading business is mainly undertaken by Poly ... China's Poly Technologies has developed the LANU-M1 vehicle-mounted counter-unmanned aerial vehicle (C-UAV) system. The LANU is ... Poly Technologies developed the LANU-M1 vehicle-mounted counter-unmanned aerial vehicle system, designed to be mounted on the ...
... Country Day School (commonly known as Poly Prep) is an independent, co-educational day school with two campuses in ... "Poly Prep Country Day School - Directions to Poly Prep's Lower School, Middle School, Upper School". www.polyprep.org. ... Tehrany welcomes Poly's Pre-Med Students to shadow his work through the Poly Prep Internship Program". February 27, 2017. ... The middle school program begins at grade 5, at which point Poly students enroll at Poly Prep's Middle and Upper School campus ...
... 2005) website Poly-Switzerland (Poly-World 2004) website Poly-Scandinavia (Poly-World 2003) website Poly-Japan (Poly ... 1991 Poly-Germany 1990 Poly-Japan Poly-World Poly-World 2020 website Poly-World 2019 website Poly-World 2018 website Poly-World ... American west coast 1997 Poly-France 1996 Poly-Germany 1995 Poly-Japan 1994 Poly-Great Britain 1993 Poly-Italy 1992 Poly- ... Poly-World 2016 website Poly-World 2015 website Poly-World 2014 website Poly-World 2013 website Poly-World 2012 website Poly- ...
The API also allowed uploading 3D objects directly to Poly with the Poly Upload API. The API could be used for web, Android, ... "Poly - Google Developer , Poly , Google Developers". Google Developers. Retrieved December 5, 2017. v t e (Articles with short ... Poly Help". support.google.com. Retrieved December 21, 2020. Zvinakis, Andrea (November 1, 2017). "Poly: Browse, discover and ... Poly was a website created by Google for users to browse, distribute, and download 3D objects. It was launched in 2017 and ...
Polyethylene or polythene (abbreviated PE; IUPAC name polyethene or poly(methylene)) is the most commonly produced plastic. It ... Polyethylene (other than cross-linked polyethylene) usually can be dissolved at elevated temperatures in aromatic hydrocarbons ... including very-low-density polyethylene and linear low-density polyethylene. Such resins, in the form of UHMWPE fibers, have ( ... These temperatures vary strongly with the type of polyethylene, but the theoretical upper limit of melting of polyethylene is ...
Looking for the ideal Poly Gifts? Come check out our giant selection of T-Shirts, Mugs, Tote Bags, Stickers and More. CafePress ... Find high quality Poly Gifts at CafePress. Shop a large selection of custom t-shirts, sweatshirts, mugs and more. ...
If one Roly Poly is gently tapped, for example, the corresponding object will move to the same degree, even if located across ... Roly Poly. Design Incubation Centre (est. 2006) National University of Singapore (Singapore, est. 1980) 2008. ...
Hack4Impact Cal Poly We collaborate with nonprofits to develop software that meets important social and humanitarian needs. ...
Polyethylene Glycol 3350: learn about side effects, dosage, special precautions, and more on MedlinePlus ... Take polyethylene glycol 3350 exactly as directed.. Polyethylene glycol 3350 may be habit-forming. Do not take a larger dose, ... Before taking polyethylene glycol 3350,. *tell your doctor and pharmacist if you are allergic to polyethylene glycol or any ... Polyethylene glycol 3350 is used to treat occasional constipation. Polyethylene glycol 3350 is in a class of medications called ...
Table of laboratory methods panels for Poly- and Perfluoroalkyl Substances (PFAS). Chemical. Specimen Type. ... Changes in serum concentrations of maternal poly- and perfluoroalkyl substances over the course of pregnancy and predictors of ...
See customer reviews and comparisons for Poly Blackwire 5220 USB-C Headset. Upgrades and savings on select products. ... Poly Blackwire 3320 Usb-C HeadsetPoly Blackwire 3210 Usb-C HeadsetPoly Blackwire 3320 Microsoft Teams Certified Usb-C Headset ... Poly Blackwire 3320 Usb-C HeadsetPoly Blackwire 3210 Usb-C HeadsetPoly Blackwire 3320 Microsoft Teams Certified Usb-C Headset ... Poly Blackwire 3320 Usb-C HeadsetPoly Blackwire 3210 Usb-C HeadsetPoly Blackwire 3320 Microsoft Teams Certified Usb-C Headset ...
Learn by DoingSM has been Cal Polys pedagogy since 1901. © 2023 California Polytechnic State University ...
Low Poly Ribbon Polyprismatic. by GDJ - uploaded on December 29, 2018, 9:26 pm ... Sign Silhouette Symbol Woman Breast Cancer Awareness Pink Health Research Medicine Medical Hope Ribbon Abstract Art Low Poly ...
What does Poly Network actually mean? Find out inside PCMags comprehensive tech and computer-related encyclopedia. ... Poly also integrated with the Polygon Layer 2 framework. A Peculiar Heist in 2021. In August 2021, more than $600 million was ... Within 24 hours, more than a third of the money was returned, and the hacker asked for donations for exposing Polys ... stolen from the Poly Network, amounting to the largest decentralized finance (DeFi) hack ever. ...
Cal Poly offers different types of financial aid including scholarships, grants, loans, and work study opportunities. The types ... and amounts of aid Cal Poly will award you depends on your availability of funds, your enrollment status, and your financial ...
Without proper preparation with the correct materials, there is no paint that will adhere to a poly tarp. During dry weather it ... Getting paint to stick to poly tarp is not the easiest thing to do. Polypropylene is designed to repel just about everything. ... This is primarily due to a mold-repellent coating that will not allow bonding of any kind to the poly tarp. Stripping the ... Getting paint to stick to poly tarp is not the easiest thing to do. Polypropylene is designed to repel just about everything. ...
zn_poly-devel-0.9.2-8.fc37.s390x.rpm. zn_poly-devel-0.9.2-8.fc37.x86_64.html. Development files for zn_poly. Fedora 37 for x86_ ... zn_poly-devel-0.9.2-8.fc37.aarch64.rpm. zn_poly-devel-0.9.2-8.fc37.i686.html. Development files for zn_poly. Fedora 37 for x86_ ... zn_poly-devel-0.9.2-8.fc37.i686.rpm. zn_poly-devel-0.9.2-8.fc37.ppc64le.html. Development files for zn_poly. Fedora 37 for ... zn_poly-devel-0.9.2-8.fc37.ppc64le.rpm. zn_poly-devel-0.9.2-8.fc37.s390x.html. Development files for zn_poly. Fedora 37 for ...
John Deere 825i S4 Gator with Power Steering and Poly Top 6627 Miles 1039 HRS *Passenger Seat Torn. ... ACE ROTO-MOLD 65 GALLON POLY TANK, ONLY USED FOR WATER$70.00. ... JOHN DEERE POLY PULL TYPE LAWN SEEDER / FERTILIZER SPREADER$ ... 2) NEW RUBBERMAID 150 GALLON POLY STOCK TANKS W/ USED MATS$190.00. ...
Get free shipping on qualified Polyethylene, UV Resistant Tarps products or Buy Online Pick Up in Store today in the Paint ... Can Polyethylene Tarps be returned?. Yes, Polyethylene Tarps can be returned within our 90-Day return period.. What are the ... What are some popular features for Polyethylene Tarps?. Some popular features for Polyethylene Tarps are uv resistant, with ... What are some of the most reviewed products in Polyethylene Tarps?. Some of the most reviewed products in Polyethylene Tarps ...
Poly Copper™ Pellets make it easy to balance your horse’s diet by focusing solely on copper in a tasty pellet form ... Poly Copper™ Pellets is rated 4.9 out of 5 by 29. Rated 5 out of 5 by Rebecca B. from Convenient enclosed scoop and good ... Poly Copper™ Pellets make it easy to balance your horses diet by focusing solely on copper in a tasty pellet form. While there ... The Poly Copper supplement is appetizing for my horse with an alfalfa base and have no added sweeteners/flavors, which is ...
Posted in green hacks, Misc HacksTagged pet, plastic recycling, polyethylene, polyethylene terephthalate, recycling, soda ... And finding a bug that eats polyethylene and poops antifreeze might be a great first step in bioremediating the mess. ... They showed the mechanism wasnt just mechanical and that the worms were digesting the polyethylene, to the tune of 92 mg ... All over the world, mountains of polyethylene terephthalate (PET) plastics are available for recycling in the form of soda ...
Abstract Art Cartoon Chromatic Colorful Elf Fairy Fantasy Female Fictional Flying Geometric Girl Low Poly Mythical Polygon ... Low Poly Prismatic Female Fairy Relaxing. by GDJ - uploaded on July 23, 2016, 6:43 pm ...
Professional People Low Poly World Map. by GDJ - uploaded on September 8, 2018, 6:38 pm ... Men People Professional Silhouette Reflection Art Borders Cartography Continents Countries Earth Geography Geometric Low Poly ...
Poly/ML is an extremely fast and efficient implementation of Standard ML and provides several additional features. There is a ... An X-Windows interface using Motif is available and a symbolic debugger for Poly/ML. ... Poly/ML. http://www.polyml.org/. The Poly/ML implementation of Standard ML ... Retrieved from "https://directory.fsf.org/wiki?title=Poly_ML&oldid=44873" ...
Poly Canvas Bible / Book Cover features the last stanza of the immortal poem - beloved of the faithful, silk-screened on the ... The "Footprints" Poly Canvas Bible / Book Cover features the last stanza of the immortal poem - beloved of the faithful, silk- ... " : "BC Poly Canvas Footprints Lg", "item_author" : [" "], "item_description" : "The Footprints Poly Canvas Bible / Book Cover ... BC Poly Canvas Footprints Lg , The Footprints ...
Title: The Good, The Bad, and The Low Poly Genre: Action, Early Access, Indie. Developer: Hyperstrange, Dillon Rogers, David ...
Poly-Math Get the MusicRadar Newsletter. Want all the hottest music and gear news, reviews, deals, features and more, direct to ... Poly-Maths timing is good, but not coincidental. Theyve caught a wave they helped create. Having started as a side project, ... Exhibit A: in summer 2016 Brightons experimental trio Poly-Math headed to their spiritual home ArcTanGent festival for the ...
Read the most popular poly stories on Wattpad, the worlds largest social storytelling platform. ... polypolyamory. gay. lgbt. bxbxb. polyamorous. fluff. bxb. reverseharem. lesbian. romance. angst. love. xreader. bisexual. ... A New Life (BoyxBoy)(Poly)by LeoTheWriter. 145K. 4.1K. 24. WARNING: Abuse Self Harm -*-*-*- Adam is your average 19 year old, ...
The Pitchblack Poly features Korgs revolutionary polyphonic tuning. Simply strum your guitar; the Pitchblack Poly will show ... In addition, Pitchblack Poly also provides a DC OUT jack that can be used to feed power to other effect pedals (when using the ... The Pitchblack Poly makes it easy to identify and correct the one flat string, causing the other strings to sound their correct ... Using the Pitchblack Polys advanced polyphonic tuning, you can quickly see which strings are out of tune and adjust only those ...
... coli Poly(A) Polymerase catalyzes the template independent addition of AMP from ATP to the 3 end of RNA. ... 1X Poly(A) Polymerase Reaction Buffer, 1 mM rATP and 500 ng 5´ FAM labeled poly A 20-mer RNA in a 20 µl reaction. After ... Is it possible to have the same length of poly A added to all RNA molecules by E. coli Poly(A) Polymerase? ... Lanes: L: size marker,1: No poly-A tail, 2: 5 units, 3 :15 units, 4 : 25 units of E. coli Poly(A) Polymerase. B. Effect of ...
  • Thanks for voting and helping Poly Planet on it's quest to become the 2023 Indie of the Year . (indiedb.com)
  • By the end of the 1950s both the Phillips- and Ziegler-type catalysts were being used for high-density polyethylene (HDPE) production. (wikipedia.org)
  • The impact fracture behavior of a vapor grown carbon nanofiber (VGCNF) reinforced high-density polyethylene (PE) composite was evaluated. (hindawi.com)
  • The systems evaluated were based on high-density polyethylene (Marflex PE CL-L-R-240370) provided by Chevron-Philips Chemical Co. and vapor grown carbon nanofibers (Pyrograf III) (VGCNFs) provided by Applied Sciences. (hindawi.com)
  • As of 2017[update], over 100 million tonnes of polyethylene resins are being produced annually, accounting for 34% of the total plastics market. (wikipedia.org)
  • Market Research Hub includes new market research report "Global Chlorinated Polyethylene (CPE) Sales Market Report 2017" studies sales (consumption) of Chlorinated Polyethylene (CPE) in Global market, especially in United States, China, Europe and Japan, focuses on top players in these regions/countries, with sales, price, revenue and market share for each player. (openpr.com)
  • Polyethylene glycol 3350 is used to treat occasional constipation. (medlineplus.gov)
  • Polyethylene glycol 3350 is in a class of medications called osmotic laxatives. (medlineplus.gov)
  • Polyethylene glycol 3350 comes as a powder to be mixed with a liquid and taken by mouth. (medlineplus.gov)
  • Take polyethylene glycol 3350 exactly as directed. (medlineplus.gov)
  • Polyethylene glycol 3350 may be habit-forming. (medlineplus.gov)
  • It may take 2 to 4 days for polyethylene glycol 3350 to produce a bowel movement. (medlineplus.gov)
  • If you are using polyethylene glycol 3350 from a bottle, use the measuring line on the bottle cap to measure a single dose (about 1 heaping tablespoon). (medlineplus.gov)
  • If you are using polyethylene glycol 3350 packets, each packet contains a single dose. (medlineplus.gov)
  • tell your doctor and pharmacist if you are allergic to polyethylene glycol or any other medications. (medlineplus.gov)
  • If you become pregnant while taking polyethylene glycol 3350, call your doctor. (medlineplus.gov)
  • Polyethylene glycol 3350 may cause side effects. (medlineplus.gov)
  • We use poly ethylene glycol 300, not ethylene glycol - big difference. (woodweb.com)
  • I checked on the cost of polyethylene glycol 300 and it is more costly than Pentacryl. (woodweb.com)
  • I've become focused on polyethylene glycol 1000, mentioned positively by many for stabilization wood for turning projects. (woodweb.com)
  • What are your costs of the Poly Ethylene Glycol 1000? (woodweb.com)
  • All over the world, mountains of polyethylene terephthalate (PET) plastics are available for recycling in the form of soda bottles. (hackaday.com)
  • Model analysis on effect of temperature on the solubility of recycling of Polyethylene Terephthalate (PET) plastic. (bvsalud.org)
  • What are some popular features for Polyethylene Tarps? (homedepot.com)
  • Some popular features for Polyethylene Tarps are uv resistant , with grommets and reusable . (homedepot.com)
  • What are some of the most reviewed products in Polyethylene Tarps? (homedepot.com)
  • Can Polyethylene Tarps be returned? (homedepot.com)
  • Yes, Polyethylene Tarps can be returned within our 90-Day return period. (homedepot.com)
  • What are the shipping options for Polyethylene Tarps? (homedepot.com)
  • All Polyethylene Tarps can be shipped to you at home. (homedepot.com)
  • The Ziegler- and metallocene-based catalysts families have proven to be very flexible at copolymerizing ethylene with other olefins and have become the basis for the wide range of polyethylene resins available today, including very-low-density polyethylene and linear low-density polyethylene. (wikipedia.org)
  • I have a 1200 gallon poly tank to soak them in. (woodweb.com)
  • Lanes: L: size marker,1: No poly-A tail, 2: 5 units, 3 :15 units, 4 : 25 units of E. coli Poly(A) Polymerase. (neb.com)
  • An E. coli strain that carries the cloned Poly(A) Polymerase gene from E. coli (1). (neb.com)
  • 1X Poly(A) Polymerase Reaction Buffer, 1 mM rATP and 500 ng 5´ FAM labeled poly A 20-mer RNA in a 20 µl reaction. (neb.com)
  • Poly(A) Polymerase can be inactivated by adding EDTA at a final concentration of 10 mM to the reaction. (neb.com)
  • Poly (A) Polymerase is compatible with the M-MuLV reverse transcriptase buffer. (neb.com)
  • Poly(ADP-ribose) polymerase-1 (PARP-1) is an abundant and ubiquitous nuclear protein that uses NAD + to synthesize a multibranched polyanion composed of ADP-ribose moieties, giving rise to poly(ADP-ribose) (PAR), onto itself or a variety of target proteins. (nature.com)
  • Rucaparib is a PARP (poly [adenosine diphosphate-ribose] polymerase) inhibitor. (medscape.com)
  • The cotton/poly blend makes for durable wear and a form-fit that won't stretch after a few washes, and the sustainable recycled polyester means you can feel good about looking good. (spreadshirt.com)
  • This fitted cotton/poly tee should be a staple of everyone's wardrobe. (spreadshirt.com)
  • Exhibit A: in summer 2016 Brighton's experimental trio Poly-Math headed to their spiritual home ArcTanGent festival for the third time, a weekend that seems to grow more popular with each event. (musicradar.com)
  • In this study, we address this interface in vitro through a detailed structural characterization of the colloidal assemblies of polymeric micelles based on poly(2-oxazolines) with three different guest loadings with the natural product curcumin (17-52 wt %) in fed- state simulated intestinal fluids (FeSSIF). (bvsalud.org)
  • They showed the mechanism wasn't just mechanical and that the worms were digesting the polyethylene, to the tune of 92 mg consumed for 100 worms in 12 hours. (hackaday.com)
  • the Pitchblack Poly will show which strings are in tune and which strings are out of tune, all in a single glance. (korg.com)
  • The properties of polyethylene depends strongly on type. (wikipedia.org)
  • Effects of postnatal exposure to phthalate, bisphenol a, triclosan, parabens, and per- and poly-fluoroalkyl substances on maternal postpartum depression and infant neurodevelopment: a korean mother-infant pair cohort study. (bvsalud.org)
  • The occurrence of more than one type of violence brings serious consequences to poly-victims, compared to victims of a single type of violence. (bvsalud.org)
  • IUPAC name polyethene or poly(methylene)) is the most commonly produced plastic. (wikipedia.org)
  • If one Roly Poly is gently tapped, for example, the corresponding object will move to the same degree, even if located across the world. (moma.org)
  • Poly-MVA (or Polydox ) is a dietary supplement created by Merrill Garnett (b. 1931), a former dentist turned biochemist. (rationalwiki.org)
  • item_title" : "BC Poly Canvas Footprints Lg", "item_author" : [" "], "item_description" : "The Footprints Poly Canvas Bible / Book Cover features the last stanza of the immortal poem - beloved of the faithful, silk-screened on the silky front panel over a shoreline backdrop. (booksamillion.com)
  • item_title" : "FLAG DOUBLE APPLIQUE ALABAMA POLY GARDEN", "item_author" : [" "], "item_description" : "Size is 13 x 18 inches. (booksamillion.com)
  • Poly/ML is an extremely fast and efficient implementation of Standard ML and provides several additional features. (fsf.org)
  • The Pitchblack Poly features Korg's revolutionary polyphonic tuning. (korg.com)
  • The dynamic turnover of PAR within seconds to minutes is executed by poly(ADP-ribose) glycohydrolase, the main PAR-degrading enzyme, which possesses both endoglycosidic and exoglycosidic activities, thereby enabling a new round of DNA damage signaling 14 . (nature.com)
  • Poly Copper™ Pellets make it easy to balance your horse's diet by focusing solely on copper in a tasty pellet form. (smartpakequine.com)
  • Our Poly tubing in clear color measures 2" x 750' has impressive clarity for packaging light/heavy weight items and makes storage simple for industrial, food service or healthcare applications. (staples.com)
  • It was not until 1935 that another ICI chemist, Michael Perrin, developed this accident into a reproducible high-pressure synthesis for polyethylene that became the basis for industrial low-density polyethylene (LDPE) production beginning in 1939. (wikipedia.org)
  • The landmark breakthrough in the commercial production of polyethylene began with the development of catalysts that promoted the polymerization at mild temperatures and pressures. (wikipedia.org)
  • Chromium is used at the facility as a catalyst in the polyethylene production process. (cdc.gov)
  • The need to broaden the understanding of this phenomenon is also important because of the lack of national studies about poly-victimization, especially in the context of sexually abused boys. (bvsalud.org)
  • Because polyethylene was found to have very low-loss properties at very high frequency radio waves, commercial distribution in Britain was suspended on the outbreak of World War II, secrecy imposed, and the new process was used to produce insulation for UHF and SHF coaxial cables of radar sets. (wikipedia.org)
  • Many kinds of polyethylene are known, with most having the chemical formula (C2H4)n. (wikipedia.org)
  • The first industrially practical polyethylene synthesis (diazomethane is a notoriously unstable substance that is generally avoided in industrial application) was again accidentally discovered in 1933 by Eric Fawcett and Reginald Gibson at the Imperial Chemical Industries (ICI) works in Northwich, England. (wikipedia.org)
  • Our Poly tubing in clear color with 4 mil thick is made from low-density polyethylene. (staples.com)
  • To maximize bioavailability and its effect, the copper in Poly Copper Pellets is partnered with polysaccharides to help protect the key minerals until they reach the digestive site where they can be most effectively absorbed and utilized. (smartpakequine.com)
  • Even when the Pitchblack Poly is connected between several of your favorite pedal effect units, the input will simply be directly output without passing through any buffer amp, ensuring that the sound you've created with your effect units will be uncolored. (korg.com)
  • The Pitchblack Poly is designed to play nicely with your other effect pedals. (korg.com)
  • The Pitchblack Poly is sized like a pedal effect unit, and will conveniently fit into most effect pedalboard systems. (korg.com)
  • In addition, Pitchblack Poly also provides a DC OUT jack that can be used to feed power to other effect pedals (when using the optional AC adapter). (korg.com)
  • In August 2021, more than $600 million was stolen from the Poly Network, amounting to the largest decentralized finance (DeFi) hack ever. (pcmag.com)
  • Poly-MVA is promoted with claims that it can treat a variety of human diseases including cancer and HIV/AIDS . (rationalwiki.org)
  • Without proper preparation with the correct materials, there is no paint that will adhere to a poly tarp. (ehow.com)
  • And finding a bug that eats polyethylene and poops antifreeze might be a great first step in bioremediating the mess. (hackaday.com)
  • Polyethylene is characterized by a great capacity to absorb energy despite its low modulus of elasticity [ 1 ]. (hindawi.com)