Rubber
Hevea
Rubber Dams
Latex
Silicone Elastomers
Latex Hypersensitivity
Taraxacum
Gloves, Protective
Hemiterpenes
Hemorrhoids
Euphorbiaceae
Dimethylallyltranstransferase
Nevus, Blue
Chemical Industry
Urethral response to latex and Silastic catheters. (1/298)
The reaction of the urethral mucosa to latex and Silastic catheters was compared in two groups of patients undergoing prostatectomy. The bacteriologic response in the two groups differed little; however, Silastic catheters produced less cellular reaction than latex catheters. (+info)Casts of hepatic blood vessels: a comparison of the microcirculation of the penguin, Pygoscelis adeliae, with some common laboratory animals. (2/298)
Latex casts of the hepatic blood vessels of the penguin, Pygoscelis adeliae, and of some common laboratory animals were compared. There was general similarity between the different species, but the portal venous and hepatic arterial systems of the penguin were simpler than those of other species. Measurements were made of the volume and length of portal veins and it appears that the portal venous system is capable of being a more efficient blood reservoir in the penguin than in other species studied. The peribiliary plexus was especially well formed in the penguin and was drained by long veins which usually joined portal venous branches. Some of the long veins drained directly into the hepatic venous tree: these translobular veins were more prominent than in mammals. Anastomoses between hepatic artery and portal vein were not present in penguins, and the supply to the sinusoids appeared to be separate. The morphology of small hepatic veins of all the species appeared to be similar. (+info)Evaluation of the efficacy of a polyurethane condom: results from a randomized, controlled clinical trial. (3/298)
CONTEXT: Condoms made of latex are not comfortable or appropriate for all consumers. Polyurethane condoms may provide a needed alternative. METHODS: In a double-masked study, 805 monogamous couples were randomized to use either the polyurethane condom or the latex condom for six months. Couples recorded the frequency of intercourse, of condom use and of breakage and slippage throughout the trial in coital diaries and in detailed reports on the first five uses. Breakage and slippage rates were determined, and typical-use and consistent-use pregnancy rates were calculated using life-table analysis, adjusted for use of emergency contraception. RESULTS: The six-month pregnancy rate during typical use (adjusted for use of emergency contraception) was 4.8% for the polyurethane condom and 6.3% for the latex condom. Similarly adjusted pregnancy rates during consistent use over six completed menstrual cycles--2.4% for the polyurethane condom and 1.1% for the latex condom--did not differ significantly. Clinical failure rates (including breakage and slippage occurring during either intercourse or withdrawal) were 8.5% for the polyurethane condom and 1.6% for the latex condom. In general, male participants were more satisfied with the latex condom, and users of latex were significantly less likely to drop out of the study for condom-related reasons than were users of polyurethane. CONCLUSIONS: Although polyurethane and latex condoms provide equivalent levels of contraceptive protection, the polyurethane condom's higher frequency of breakage and slippage suggests that this condom may confer less protection from sexually transmitted infections than does the latex condom. (+info)Measurement of some potentially hazardous materials in the atmosphere of rubber factories. (4/298)
Two separate topics of work are outlined: methods for the measurement of chlorinated monomers in PVC and polychloroprene, and also methods for the measurement of these materials in factory air. Typical results which have been obtained in supplies of raw materials, in finished products, and in the working atmosphere at manufacturing operations are given. The second topic concerns the measurement of benzo[a]pyrene in the atmosphere of a tire manufacturing plant. This material is present in trace quantities in the mineral oils and carbon blacks used by the industry. The atmospheric concentrations present at various processes in this plant were measured on a daily basis over a period of two years, and the results obtained compared with results taken concurrently from an outside air station. It is shown that no significant quantities of benzo[a]pyrene are produced by tire manufacturing operations. (+info)Chronic diseases in the rubber industry. (5/298)
An overview is presented of epidemiologic studies of chronic diseases in the rubber industry. Analyses of the mortality experience during the period 1964-1972 of workers age 40-64 and retirees age 65-84 of two large rubber and tire manufacturing companies consistently disclosed excesses of deaths attributed to leukemia and lymphosarcoma, and for cancers of the stomach, large intestine, and prostate. The relation of site-specific malignancies to work histories and grouped occupational titles as surrogate measures of work-related exposures to possible carcinogens is described. There was no evidence of company-wide, sizable, consistent excess for the other major chronic diseases causes of death. Although a total cohort deficit in the mortality rate for lung cancer was found, there was a history of increased frequency of exposure to certain work areas among lung cancer decedents. Morbidity studies, including analysis of disability retirements, and ad hoc questionnaire and health testing surveys, disclosed excesses of chronic pulmonary diseases. There was evidence of an interactive effect in the association of work and smoking histories with pulmonary disability retirement. (+info)Problems and perspective in epidemiological study of occupational health hazards in the rubber industry. (6/298)
An epidemiological analysis of the problems in the study of companies engaged in the manufacture of rubber products in different countries and in different time periods is given. Selected findings on cancer of gallbladder and biliary system, cancer of the lung, and tumors of the central nervous system among rubber workers are presented. (+info)Recent achievements and research initiated in the Swedish plastics and rubber industry. (7/298)
The improvement in exposure conditions in the Swedish vinyl chloride producing industry is reported. The article comments on the technology and control methods by which the vinyl chloride concentration has been lowered to less than 1 ppm vinyl chloride. Two epidemiological retrospective cohort studies are presently under way on workers in PVC-utilizing industries and in the rubber industry. (+info)Occupational disease in the rubber industry. (8/298)
We have studied mortality patterns in a large cohort of rubber workers. We have examined workers exposed to curing fumes, processing dusts, and industrial talc and have begun to evaluate exposures of these workers in detail. Gastrointestinal (especially stomach) cancer appears in excess in processing workers. Lung cancer is excessive in curing workers. Leukemia is increased generally. All three groups studied for respiratory disease have an increase in disease prevalence which is related to intensity and duration of exposure. Since both an increase in stomach cancer and respiratory disease is seen in processing workers, exposures in this area must be controlled. Since both lung cancer and chronic respiratory disease is excessive in curing rooms, this exposure must be controlled. The leukemia risk is probably related to solvents. Whether this is all explainable by past benzene exposure is unknown. Further studies are planned to refine our knowledge concerning these risks so that occupational disease in the rubber industry can be prevented. (+info)I believe there may be some confusion in your question. "Rubber" is not a medical term, but rather a common term used to describe a type of material that is elastic and can be stretched or deformed and then return to its original shape when the force is removed. It is often made from the sap of rubber trees or synthetically.
However, in a medical context, "rubber" might refer to certain medical devices or supplies made from rubber materials, such as rubber gloves used for medical examinations or procedures, or rubber stoppers used in laboratory equipment. But there is no medical definition specifically associated with the term 'Rubber' itself.
"Hevea" is the genus name for the rubber tree, specifically *Hevea brasiliensis*, which is the primary source of natural rubber. The sap from this tree, known as latex, is collected and processed to produce raw rubber. This material can then be used in a wide variety of applications, including medical devices, tires, and various other products.
It's worth noting that some people may have allergic reactions to proteins found in natural rubber latex, which can cause symptoms ranging from mild skin irritation to severe respiratory problems. As such, it's important for healthcare providers and others who work with medical equipment to be aware of the potential risks associated with Hevea-derived products.
A rubber dam is a thin sheet of latex or silicone material used in dental procedures to isolate the operative site and provide a dry, clean field for better visualization and moisture control. It's typically used during restorative dentistry, endodontic treatments (like root canals), and other procedures where maintaining a dry and isolated operating area is crucial.
The rubber dam is placed over a frame or a special clamp that holds it in position, isolating the tooth or teeth to be treated while keeping saliva and debris from interfering with the procedure. This helps enhance precision, efficiency, and patient safety during dental treatments.
In a medical context, "latex" refers to the natural rubber milk-like substance that is tapped from the incisions made in the bark of the rubber tree (Hevea brasiliensis). This sap is then processed to create various products such as gloves, catheters, and balloons. It's important to note that some people may have a latex allergy, which can cause mild to severe reactions when they come into contact with latex products.
Silicone elastomers are a type of synthetic rubber made from silicone, which is a polymer composed primarily of silicon-oxygen bonds. They are known for their durability, flexibility, and resistance to heat, cold, and moisture. Silicone elastomers can be manufactured in various forms, including liquids, gels, and solids, and they are used in a wide range of medical applications such as:
1. Breast implants: Silicone elastomer shells filled with silicone gel are commonly used for breast augmentation and reconstruction.
2. Contact lenses: Some contact lenses are made from silicone elastomers due to their high oxygen permeability, which allows for better eye health.
3. Catheters: Silicone elastomer catheters are flexible and resistant to kinking, making them suitable for long-term use in various medical procedures.
4. Implantable drug delivery systems: Silicone elastomers can be used as a matrix for controlled release of drugs, allowing for sustained and targeted medication administration.
5. Medical adhesives: Silicone elastomer adhesives are biocompatible and can be used to attach medical devices to the skin or other tissues.
6. Sealants and coatings: Silicone elastomers can be used as sealants and coatings in medical devices to prevent leakage, improve durability, and reduce infection risk.
It is important to note that while silicone elastomers are generally considered safe for medical use, there have been concerns about the potential health risks associated with breast implants, such as capsular contracture, breast pain, and immune system reactions. However, these risks vary depending on the individual's health status and the specific type of silicone elastomer used.
Latex hypersensitivity is an immune-mediated reaction to proteins found in natural rubber latex, which can cause allergic symptoms ranging from mild skin irritation to life-threatening anaphylaxis. It is a form of type I (immediate) hypersensitivity, mediated by IgE antibodies that bind to mast cells and basophils, leading to the release of histamine and other mediators of inflammation upon re-exposure to latex proteins.
The symptoms of latex hypersensitivity can include skin rashes, hives, itching, nasal congestion, sneezing, wheezing, shortness of breath, coughing, and in severe cases, anaphylaxis characterized by a rapid heartbeat, low blood pressure, loss of consciousness, and even death.
Healthcare workers, patients with spina bifida, and those who have undergone multiple surgeries are at increased risk for developing latex hypersensitivity due to repeated exposure to latex products. Prevention measures include using non-latex medical supplies and devices, wearing non-powdered latex gloves, and implementing strict hand hygiene practices.
"Taraxacum" is the scientific name for the plant species commonly known as dandelions. These are flowering plants that belong to the Asteraceae family and are native to Eurasia. The name "Taraxacum" comes from the Greek words "taraxos," meaning disorder, and "akos," meaning remedy, reflecting the historical use of dandelion leaves and roots as herbal medicine.
Dandelions have bright yellow flowers that turn into spherical seed heads, which are often blown away by the wind, scattering the seeds. All parts of the plant, including the leaves, flowers, and roots, can be used in various culinary and medicinal applications. Dandelion greens are rich in vitamins and minerals, while dandelion root tea is believed to have diuretic properties. However, it's important to note that the medical benefits of dandelions have not been extensively studied or proven by modern scientific research.
Protective gloves are a type of personal protective equipment (PPE) used to shield the hands from potential harm or contamination. They can be made from various materials such as latex, nitrile rubber, vinyl, or polyethylene and are designed to provide a barrier against chemicals, biological agents, radiation, or mechanical injuries. Protective gloves come in different types, including examination gloves, surgical gloves, chemical-resistant gloves, and heavy-duty work gloves, depending on the intended use and level of protection required.
I'm sorry for any confusion, but "Hemiterpenes" is not a recognized term in medical or biochemistry terminology. The term "terpene" does refer to a large class of naturally occurring organic hydrocarbons, which are synthesized in various plants and animals. They are built from repeating units of isoprene (a five-carbon molecule), and can be further classified into monoterpenes (two isoprene units), sesquiterpenes (three isoprene units), diterpenes (four isoprene units), and so on.
However, the prefix "hemi-" means "half," which doesn't have a clear application in this context. It's possible there may be a misunderstanding or a typo in your question. If you meant to ask about a specific type of compound or a concept related to terpenes, please provide more context so I can give a more accurate answer.
Hemorrhoids are swollen veins in the rectum or anus that can cause pain, itching, bleeding, and bulging. They can be internal (inside the rectum) or external (under the skin around the anus). Internal hemorrhoids may protrude through the anus and become irritated, leading to bleeding. External hemorrhoids are more likely to cause pain and swelling, especially if they become thrombosed (formed a blood clot). Hemorrhoids can be caused by straining during bowel movements, pregnancy, obesity, chronic constipation or diarrhea, aging, and sitting for long periods of time. They are often treated with over-the-counter creams, suppositories, or warm sitz baths, but severe cases may require surgical intervention.
Euphorbiaceae is not a medical term, but a taxonomic category in botany. It refers to the spurge family, which is a large family of flowering plants that includes around 300 genera and 7,500 species. Some members of this family have medicinal uses, but others are toxic or invasive. Therefore, it is important to use caution when handling or consuming any plant material from this family.
Dimethylallyltranstransferase (DMAT) is an enzyme that plays a crucial role in the biosynthesis of various natural compounds, including terpenoids and alkaloids. These compounds have diverse functions in nature, ranging from serving as pigments and fragrances to acting as defense mechanisms against predators or pathogens.
The primary function of DMAT is to catalyze the head-to-tail condensation of dimethylallyl pyrophosphate (DMAPP) with various diphosphate-bound prenyl substrates, forming prenylated products. This reaction represents the first committed step in the biosynthesis of many terpenoids and alkaloids.
The enzyme's catalytic mechanism involves the formation of a covalent bond between the pyrophosphate group of DMAPP and a conserved cysteine residue within the DMAT active site, followed by the transfer of the dimethylallyl moiety to the diphosphate-bound prenyl substrate.
DMAT is found in various organisms, including bacteria, fungi, plants, and animals. In humans, DMAT is involved in the biosynthesis of steroids, which are essential components of cell membranes and precursors to important hormones such as cortisol, aldosterone, and sex hormones.
In summary, dimethylallyltranstransferase (DMAT) is an enzyme that catalyzes the condensation of dimethylallyl pyrophosphate (DMAPP) with various prenyl substrates, playing a critical role in the biosynthesis of diverse natural compounds, including terpenoids and alkaloids.
A blue nevus, also known as a "naevus" or "mole," is a type of melanocytic nevus, which means it contains the pigment-producing cells called melanocytes. The term "blue" refers to its characteristic color, which results from the way light penetrates and scatters in the deep layers of the skin where the nevus is located.
Blue nevi are typically benign, meaning they are not cancerous and do not usually pose a threat to health. They can appear as solitary lesions or multiple lesions and may be present at birth (congenital) or develop during childhood or adulthood.
While blue nevi are generally harmless, it is important to monitor them for any changes in size, shape, color, or texture, as well as the development of new symptoms such as pain, itching, or bleeding. In rare cases, a blue nevus may undergo malignant transformation and develop into a type of skin cancer called melanoma.
If you have a blue nevus that is changing or causing concern, it is recommended to consult with a healthcare professional for further evaluation and management.
The chemical industry is a broad term that refers to the companies and organizations involved in the production or transformation of raw materials or intermediates into various chemical products. These products can be used for a wide range of applications, including manufacturing, agriculture, pharmaceuticals, and consumer goods. The chemical industry includes businesses that produce basic chemicals, such as petrochemicals, agrochemicals, polymers, and industrial gases, as well as those that manufacture specialty chemicals, such as dyestuffs, flavors, fragrances, and advanced materials. Additionally, the chemical industry encompasses companies that provide services related to the research, development, testing, and distribution of chemical products.
An illusion is a perception in the brain that does not match the actual stimulus in the environment. It is often described as a false or misinterpreted sensory experience, where the senses perceive something that is different from the reality. Illusions can occur in any of the senses, including vision, hearing, touch, taste, and smell.
In medical terms, illusions are sometimes associated with certain neurological conditions, such as migraines, brain injuries, or mental health disorders like schizophrenia. They can also be a side effect of certain medications or substances. In these cases, the illusions may be a symptom of an underlying medical condition and should be evaluated by a healthcare professional.
It's important to note that while illusions are often used in the context of entertainment and art, they can also have serious implications for individuals who experience them frequently or as part of a medical condition.
Surgical gloves are a form of personal protective equipment (PPE) used by healthcare professionals during medical procedures, particularly surgical procedures. They are designed to provide a barrier between the healthcare professional's hands and the patient's sterile field, helping to prevent contamination and reduce the risk of infection.
Surgical gloves are typically made of latex, nitrile rubber, or vinyl and come in various sizes to fit different hand shapes and sizes. They have a powder-free interior and an exterior that is coated with a substance to make them easier to put on and remove. The gloves are usually sterile and are packaged in pairs, often with a protective covering to maintain their sterility until they are ready to be used.
The use of surgical gloves is a critical component of standard precautions, which are measures taken to prevent the transmission of infectious agents from patients to healthcare professionals or from one patient to another. By wearing surgical gloves, healthcare professionals can protect themselves and their patients from potentially harmful bacteria, viruses, and other microorganisms that may be present during medical procedures.