The time required for the appearance of FIBRIN strands following the mixing of PLASMA with phospholipid platelet substitute (e.g., crude cephalins, soybean phosphatides). It is a test of the intrinsic pathway (factors VIII, IX, XI, and XII) and the common pathway (fibrinogen, prothrombin, factors V and X) of BLOOD COAGULATION. It is used as a screening test and to monitor HEPARIN therapy.
Constituent composed of protein and phospholipid that is widely distributed in many tissues. It serves as a cofactor with factor VIIa to activate factor X in the extrinsic pathway of blood coagulation.
Clotting time of PLASMA recalcified in the presence of excess TISSUE THROMBOPLASTIN. Factors measured are FIBRINOGEN; PROTHROMBIN; FACTOR V; FACTOR VII; and FACTOR X. It is used for monitoring anticoagulant therapy with COUMARINS.
Laboratory tests for evaluating the individual's clotting mechanism.
The process of the interaction of BLOOD COAGULATION FACTORS that results in an insoluble FIBRIN clot.
Hemorrhagic and thrombotic disorders that occur as a consequence of abnormalities in blood coagulation due to a variety of factors such as COAGULATION PROTEIN DISORDERS; BLOOD PLATELET DISORDERS; BLOOD PROTEIN DISORDERS or nutritional conditions.
Clotting time of PLASMA mixed with a THROMBIN solution. It is a measure of the conversion of FIBRINOGEN to FIBRIN, which is prolonged by AFIBRINOGENEMIA, abnormal fibrinogen, or the presence of inhibitory substances, e.g., fibrin-fibrinogen degradation products, or HEPARIN. BATROXOBIN, a thrombin-like enzyme unaffected by the presence of heparin, may be used in place of thrombin.
A highly acidic mucopolysaccharide formed of equal parts of sulfated D-glucosamine and D-glucuronic acid with sulfaminic bridges. The molecular weight ranges from six to twenty thousand. Heparin occurs in and is obtained from liver, lung, mast cells, etc., of vertebrates. Its function is unknown, but it is used to prevent blood clotting in vivo and vitro, in the form of many different salts.
Agents that prevent clotting.
Endogenous substances, usually proteins, that are involved in the blood coagulation process.
The process which spontaneously arrests the flow of BLOOD from vessels carrying blood under pressure. It is accomplished by contraction of the vessels, adhesion and aggregation of formed blood elements (eg. ERYTHROCYTE AGGREGATION), and the process of BLOOD COAGULATION.
Stable blood coagulation factor involved in the intrinsic pathway. The activated form XIa activates factor IX to IXa. Deficiency of factor XI is often called hemophilia C.
Endogenous factors and drugs that directly inhibit the action of THROMBIN, usually by blocking its enzymatic activity. They are distinguished from INDIRECT THROMBIN INHIBITORS, such as HEPARIN, which act by enhancing the inhibitory effects of antithrombins.
A disorder characterized by procoagulant substances entering the general circulation causing a systemic thrombotic process. The activation of the clotting mechanism may arise from any of a number of disorders. A majority of the patients manifest skin lesions, sometimes leading to PURPURA FULMINANS.
System established by the World Health Organization and the International Committee on Thrombosis and Hemostasis for monitoring and reporting blood coagulation tests. Under this system, results are standardized using the International Sensitivity Index for the particular test reagent/instrument combination used.
Duration of blood flow after skin puncture. This test is used as a measure of capillary and platelet function.
Use of a thrombelastograph, which provides a continuous graphic record of the physical shape of a clot during fibrin formation and subsequent lysis.
An antiphospholipid antibody found in association with systemic lupus erythematosus (LUPUS ERYTHEMATOSUS, SYSTEMIC;), ANTIPHOSPHOLIPID SYNDROME; and in a variety of other diseases as well as in healthy individuals. In vitro, the antibody interferes with the conversion of prothrombin to thrombin and prolongs the partial thromboplastin time. In vivo, it exerts a procoagulant effect resulting in thrombosis mainly in the larger veins and arteries. It further causes obstetrical complications, including fetal death and spontaneous abortion, as well as a variety of hematologic and neurologic complications.
Plasma glycoprotein clotted by thrombin, composed of a dimer of three non-identical pairs of polypeptide chains (alpha, beta, gamma) held together by disulfide bonds. Fibrinogen clotting is a sol-gel change involving complex molecular arrangements: whereas fibrinogen is cleaved by thrombin to form polypeptides A and B, the proteolytic action of other enzymes yields different fibrinogen degradation products.
Heat- and storage-stable plasma protein that is activated by tissue thromboplastin to form factor VIIa in the extrinsic pathway of blood coagulation. The activated form then catalyzes the activation of factor X to factor Xa.
Spontaneous or near spontaneous bleeding caused by a defect in clotting mechanisms (BLOOD COAGULATION DISORDERS) or another abnormality causing a structural flaw in the blood vessels (HEMOSTATIC DISORDERS).
A plasma alpha 2 glycoprotein that accounts for the major antithrombin activity of normal plasma and also inhibits several other enzymes. It is a member of the serpin superfamily.
A plasma protein that is the inactive precursor of thrombin. It is converted to thrombin by a prothrombin activator complex consisting of factor Xa, factor V, phospholipid, and calcium ions. Deficiency of prothrombin leads to hypoprothrombinemia.
Single-chain polypeptides of about 65 amino acids (7 kDa) from LEECHES that have a neutral hydrophobic N terminus, an acidic hydrophilic C terminus, and a compact, hydrophobic core region. Recombinant hirudins lack tyr-63 sulfation and are referred to as 'desulfato-hirudins'. They form a stable non-covalent complex with ALPHA-THROMBIN, thereby abolishing its ability to cleave FIBRINOGEN.
A hereditary deficiency of blood coagulation factor XI (also known as plasma thromboplastin antecedent or PTA or antihemophilic factor C) resulting in a systemic blood-clotting defect called hemophilia C or Rosenthal's syndrome, that may resemble classical hemophilia.
Blood-coagulation factor VIII. Antihemophilic factor that is part of the factor VIII/von Willebrand factor complex. Factor VIII is produced in the liver and acts in the intrinsic pathway of blood coagulation. It serves as a cofactor in factor X activation and this action is markedly enhanced by small amounts of thrombin.
The most common mineral of a group of hydrated aluminum silicates, approximately H2Al2Si2O8-H2O. It is prepared for pharmaceutical and medicinal purposes by levigating with water to remove sand, etc. (From Merck Index, 11th ed) The name is derived from Kao-ling (Chinese: "high ridge"), the original site. (From Grant & Hackh's Chemical Dictionary, 5th ed)
Use of HIRUDINS as an anticoagulant in the treatment of cardiological and hematological disorders.
Absence or reduced levels of PROTHROMBIN in the blood.
Pipecolic acids are cyclic amino acids, specifically a derivative of L-lysine, that can function as an indicator of certain metabolic disorders such as lysinuric protein intolerance and maple syrup urine disease.
An enzyme formed from PROTHROMBIN that converts FIBRINOGEN to FIBRIN.
Hemorrhagic and thrombotic disorders that occur as a consequence of inherited abnormalities in blood coagulation.
The classic hemophilia resulting from a deficiency of factor VIII. It is an inherited disorder of blood coagulation characterized by a permanent tendency to hemorrhage.
Activated form of factor X that participates in both the intrinsic and extrinsic pathways of blood coagulation. It catalyzes the conversion of prothrombin to thrombin in conjunction with other cofactors.
The number of PLATELETS per unit volume in a sample of venous BLOOD.
Bleeding or escape of blood from a vessel.
Storage-stable blood coagulation factor acting in the intrinsic pathway. Its activated form, IXa, forms a complex with factor VIII and calcium on platelet factor 3 to activate factor X to Xa. Deficiency of factor IX results in HEMOPHILIA B (Christmas Disease).
Stable blood coagulation factor activated by contact with the subendothelial surface of an injured vessel. Along with prekallikrein, it serves as the contact factor that initiates the intrinsic pathway of blood coagulation. Kallikrein activates factor XII to XIIa. Deficiency of factor XII, also called the Hageman trait, leads to increased incidence of thromboembolic disease. Mutations in the gene for factor XII that appear to increase factor XII amidolytic activity are associated with HEREDITARY ANGIOEDEMA TYPE III.
Agents that cause clotting.
An autosomal recessive characteristic or a coagulation disorder acquired in association with VITAMIN K DEFICIENCY. FACTOR VII is a Vitamin K dependent glycoprotein essential to the extrinsic pathway of coagulation.
The natural enzymatic dissolution of FIBRIN.
A vitamin-K dependent zymogen present in the blood, which, upon activation by thrombin and thrombomodulin exerts anticoagulant properties by inactivating factors Va and VIIIa at the rate-limiting steps of thrombin formation.
A deficiency of blood coagulation factor IX inherited as an X-linked disorder. (Also known as Christmas Disease, after the first patient studied in detail, not the holy day.) Historical and clinical features resemble those in classic hemophilia (HEMOPHILIA A), but patients present with fewer symptoms. Severity of bleeding is usually similar in members of a single family. Many patients are asymptomatic until the hemostatic system is stressed by surgery or trauma. Treatment is similar to that for hemophilia A. (From Cecil Textbook of Medicine, 19th ed, p1008)
Storage-stable glycoprotein blood coagulation factor that can be activated to factor Xa by both the intrinsic and extrinsic pathways. A deficiency of factor X, sometimes called Stuart-Prower factor deficiency, may lead to a systemic coagulation disorder.
Formation and development of a thrombus or blood clot in the blood vessel.
Inflammation of a vein associated with a blood clot (THROMBUS).
Coagulant substances inhibiting the anticoagulant action of heparin.
Hemorrhagic and thrombotic disorders resulting from abnormalities or deficiencies of coagulation proteins.
Fibrinolysin or agents that convert plasminogen to FIBRINOLYSIN.
The residual portion of BLOOD that is left after removal of BLOOD CELLS by CENTRIFUGATION without prior BLOOD COAGULATION.
Heat- and storage-labile plasma glycoprotein which accelerates the conversion of prothrombin to thrombin in blood coagulation. Factor V accomplishes this by forming a complex with factor Xa, phospholipid, and calcium (prothrombinase complex). Deficiency of factor V leads to Owren's disease.
Soluble protein fragments formed by the proteolytic action of plasmin on fibrin or fibrinogen. FDP and their complexes profoundly impair the hemostatic process and are a major cause of hemorrhage in intravascular coagulation and fibrinolysis.
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)
An anticoagulant that acts by inhibiting the synthesis of vitamin K-dependent coagulation factors. Warfarin is indicated for the prophylaxis and/or treatment of venous thrombosis and its extension, pulmonary embolism, and atrial fibrillation with embolization. It is also used as an adjunct in the prophylaxis of systemic embolism after myocardial infarction. Warfarin is also used as a rodenticide.
A plasma protein which is the precursor of kallikrein. Plasma that is deficient in prekallikrein has been found to be abnormal in thromboplastin formation, kinin generation, evolution of a permeability globulin, and plasmin formation. The absence of prekallikrein in plasma leads to Fletcher factor deficiency, a congenital disease.
Two small peptide chains removed from the N-terminal segment of the alpha chains of fibrinogen by the action of thrombin during the blood coagulation process. Each peptide chain contains 18 amino acid residues. In vivo, fibrinopeptide A is used as a marker to determine the rate of conversion of fibrinogen to fibrin by thrombin.
Obstruction of a blood vessel (embolism) by a blood clot (THROMBUS) in the blood stream.
A fused four ring compound occurring free or combined in galls. Isolated from the kino of Eucalyptus maculata Hook and E. Hemipholia F. Muell. Activates Factor XII of the blood clotting system which also causes kinin release; used in research and as a dye.
The time required by whole blood to produce a visible clot.
The number of LEUKOCYTES and ERYTHROCYTES per unit volume in a sample of venous BLOOD. A complete blood count (CBC) also includes measurement of the HEMOGLOBIN; HEMATOCRIT; and ERYTHROCYTE INDICES.
A protein derived from FIBRINOGEN in the presence of THROMBIN, which forms part of the blood clot.
Method of tissue preparation in which the tissue specimen is frozen and then dehydrated at low temperature in a high vacuum. This method is also used for dehydrating pharmaceutical and food products.
Blood coagulation disorder usually inherited as an autosomal recessive trait, though it can be acquired. It is characterized by defective activity in both the intrinsic and extrinsic pathways, impaired thromboplastin time, and impaired prothrombin consumption.
An absence or reduced level of blood coagulation factor XII. It normally occurs in the absence of patient or family history of hemorrhagic disorders and is marked by prolonged clotting time.
A nutritional condition produced by a deficiency of VITAMIN K in the diet, characterized by an increased tendency to hemorrhage (HEMORRHAGIC DISORDERS). Such bleeding episodes may be particularly severe in newborn infants. (From Cecil Textbook of Medicine, 19th ed, p1182)
Blood clot formation in any part of the CAROTID ARTERIES. This may produce CAROTID STENOSIS or occlusion of the vessel, leading to TRANSIENT ISCHEMIC ATTACK; CEREBRAL INFARCTION; or AMAUROSIS FUGAX.
Endogenous peptides present in most body fluids. Certain enzymes convert them to active KININS which are involved in inflammation, blood clotting, complement reactions, etc. Kininogens belong to the cystatin superfamily. They are cysteine proteinase inhibitors. HIGH-MOLECULAR-WEIGHT KININOGEN; (HMWK); is split by plasma kallikrein to produce BRADYKININ. LOW-MOLECULAR-WEIGHT KININOGEN; (LMWK); is split by tissue kallikrein to produce KALLIDIN.
The attachment of PLATELETS to one another. This clumping together can be induced by a number of agents (e.g., THROMBIN; COLLAGEN) and is part of the mechanism leading to the formation of a THROMBUS.
A lipid cofactor that is required for normal blood clotting. Several forms of vitamin K have been identified: VITAMIN K 1 (phytomenadione) derived from plants, VITAMIN K 2 (menaquinone) from bacteria, and synthetic naphthoquinone provitamins, VITAMIN K 3 (menadione). Vitamin K 3 provitamins, after being alkylated in vivo, exhibit the antifibrinolytic activity of vitamin K. Green leafy vegetables, liver, cheese, butter, and egg yolk are good sources of vitamin K.
Any type of variation in the appearance of energy output of the sun. (NASA Thesaurus, 1994)
A hemostatic disorder characterized by a poor anticoagulant response to activated protein C (APC). The activated form of Factor V (Factor Va) is more slowly degraded by activated protein C. Factor V Leiden mutation (R506Q) is the most common cause of APC resistance.
The presence of antibodies directed against phospholipids (ANTIBODIES, ANTIPHOSPHOLIPID). The condition is associated with a variety of diseases, notably systemic lupus erythematosus and other connective tissue diseases, thrombopenia, and arterial or venous thromboses. In pregnancy it can cause abortion. Of the phospholipids, the cardiolipins show markedly elevated levels of anticardiolipin antibodies (ANTIBODIES, ANTICARDIOLIPIN). Present also are high levels of lupus anticoagulant (LUPUS COAGULATION INHIBITOR).
Substances found in many plants, containing the 4-hydroxycoumarin radical. They interfere with vitamin K and the blood clotting mechanism, are tightly protein-bound, inhibit mitochondrial and microsomal enzymes, and are used as oral anticoagulants.
Activated form of factor VII. Factor VIIa activates factor X in the extrinsic pathway of blood coagulation.
The process of observing, recording, or detecting the effects of a chemical substance administered to an individual therapeutically or diagnostically.
Activated form of factor XI. In the intrinsic pathway, Factor XI is activated to XIa by factor XIIa in the presence of cofactor HMWK; (HIGH MOLECULAR WEIGHT KININOGEN). Factor XIa then activates factor IX to factor IXa in the presence of calcium.
Activated form of factor XII. In the initial event in the intrinsic pathway of blood coagulation, kallikrein (with cofactor HIGH MOLECULAR WEIGHT KININOGEN) cleaves factor XII to XIIa. Factor XIIa is then further cleaved by kallikrein, plasmin, and trypsin to yield smaller factor XII fragments (Hageman-Factor fragments). These fragments increase the activity of prekallikrein to kallikrein but decrease the procoagulant activity of factor XII.
Hemorrhage following any surgical procedure. It may be immediate or delayed and is not restricted to the surgical wound.
Proteolytic enzymes from the serine endopeptidase family found in normal blood and urine. Specifically, Kallikreins are potent vasodilators and hypotensives and increase vascular permeability and affect smooth muscle. They act as infertility agents in men. Three forms are recognized, PLASMA KALLIKREIN (EC 3.4.21.34), TISSUE KALLIKREIN (EC 3.4.21.35), and PROSTATE-SPECIFIC ANTIGEN (EC 3.4.21.77).
Synthetic or naturally occurring substances related to coumarin, the delta-lactone of coumarinic acid.
Colorless, endogenous or exogenous pigment precursors that may be transformed by biological mechanisms into colored compounds; used in biochemical assays and in diagnosis as indicators, especially in the form of enzyme substrates. Synonym: chromogens (not to be confused with pigment-synthesizing bacteria also called chromogens).
The vitamin K-dependent cofactor of activated PROTEIN C. Together with protein C, it inhibits the action of factors VIIIa and Va. A deficiency in protein S; (PROTEIN S DEFICIENCY); can lead to recurrent venous and arterial thrombosis.
Determination, by measurement or comparison with a standard, of the correct value of each scale reading on a meter or other measuring instrument; or determination of the settings of a control device that correspond to particular values of voltage, current, frequency or other output.
Heparin derivatives. The term has also been used more loosely to include naturally occurring and synthetic highly-sulphated polysaccharides of similar structure. Heparinoid preparations have been used for a wide range of applications including as anticoagulants and anti-inflammatories and they have been claimed to have hypolipidemic properties. (From Martindale, The Extra Pharmacopoeia, 30th, p232)
An amino acid formed in vivo by the degradation of dihydrouracil and carnosine. Since neuronal uptake and neuronal receptor sensitivity to beta-alanine have been demonstrated, the compound may be a false transmitter replacing GAMMA-AMINOBUTYRIC ACID. A rare genetic disorder, hyper-beta-alaninemia, has been reported.
A disorder of HEMOSTASIS in which there is a tendency for the occurrence of THROMBOSIS.
Control of bleeding during or after surgery.
Non-nucleated disk-shaped cells formed in the megakaryocyte and found in the blood of all mammals. They are mainly involved in blood coagulation.
Laboratory examination used to monitor and evaluate platelet function in a patient's blood.
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.
Reduction of blood viscosity usually by the addition of cell free solutions. Used clinically (1) in states of impaired microcirculation, (2) for replacement of intraoperative blood loss without homologous blood transfusion, and (3) in cardiopulmonary bypass and hypothermia.
A subnormal level of BLOOD PLATELETS.
Tests used in the analysis of the hemic system.
Heparin fractions with a molecular weight usually between 4000 and 6000 kD. These low-molecular-weight fractions are effective antithrombotic agents. Their administration reduces the risk of hemorrhage, they have a longer half-life, and their platelet interactions are reduced in comparison to unfractionated heparin. They also provide an effective prophylaxis against postoperative major pulmonary embolism.
The taking of a blood sample to determine its character as a whole, to identify levels of its component cells, chemicals, gases, or other constituents, to perform pathological examination, etc.
Injuries resulting in hemorrhage, usually manifested in the skin.
Starches that have been chemically modified so that a percentage of OH groups are substituted with 2-hydroxyethyl ether groups.
Low-molecular-weight fragment of heparin, having a 4-enopyranosuronate sodium structure at the non-reducing end of the chain. It is prepared by depolymerization of the benzylic ester of porcine mucosal heparin. Therapeutically, it is used as an antithrombotic agent. (From Merck Index, 11th ed)
Multicellular marine macroalgae including some members of red (RHODOPHYTA), green (CHLOROPHYTA), and brown (PHAEOPHYTA) algae. They are widely distributed in the ocean, occurring from the tide level to considerable depths, free-floating (planktonic) or anchored to the substratum (benthic). They lack a specialized vascular system but take up fluids, nutrients, and gases directly from the water. They contain CHLOROPHYLL and are photosynthetic, but some also contain other light-absorbing pigments. Many are of economic importance as FOOD, fertilizer, AGAR, potash, or source of IODINE.
A division of predominantly marine EUKARYOTA, commonly known as brown algae, having CHROMATOPHORES containing carotenoid PIGMENTS, BIOLOGICAL. ALGINATES and phlorotannins occur widely in all major orders. They are considered the most highly evolved algae because of their well-developed multicellular organization and structural complexity.
Agents that prevent fibrinolysis or lysis of a blood clot or thrombus. Several endogenous antiplasmins are known. The drugs are used to control massive hemorrhage and in other coagulation disorders.
Techniques for controlling bleeding.
The relationship between the dose of an administered drug and the response of the organism to the drug.
A series of steps taken in order to conduct research.
Antiphospholipid antibodies found in association with systemic lupus erythematosus (LUPUS ERYTHEMATOSUS, SYSTEMIC;), ANTIPHOSPHOLIPID SYNDROME; and in a variety of other diseases as well as in healthy individuals. The antibodies are detected by solid-phase IMMUNOASSAY employing the purified phospholipid antigen CARDIOLIPIN.
Activated form of factor IX. This activation can take place via the intrinsic pathway by the action of factor XIa and calcium, or via the extrinsic pathway by the action of factor VIIa, thromboplastin, and calcium. Factor IXa serves to activate factor X to Xa by cleaving the arginyl-leucine peptide bond in factor X.
A class of Echinodermata characterized by long, slender bodies.
A deficiency or absence of FIBRINOGEN in the blood.
Laboratory and other services provided to patients at the bedside. These include diagnostic and laboratory testing using automated information entry.
Elements of limited time intervals, contributing to particular results or situations.
The domestic dog, Canis familiaris, comprising about 400 breeds, of the carnivore family CANIDAE. They are worldwide in distribution and live in association with people. (Walker's Mammals of the World, 5th ed, p1065)
A naturally occurring glycosaminoglycan found mostly in the skin and in connective tissue. It differs from CHONDROITIN SULFATE A (see CHONDROITIN SULFATES) by containing IDURONIC ACID in place of glucuronic acid, its epimer, at carbon atom 5. (from Merck, 12th ed)
Autoantibodies directed against phospholipids. These antibodies are characteristically found in patients with systemic lupus erythematosus (LUPUS ERYTHEMATOSUS, SYSTEMIC;), ANTIPHOSPHOLIPID SYNDROME; related autoimmune diseases, some non-autoimmune diseases, and also in healthy individuals.
Activated form of factor VIII. The B-domain of factor VIII is proteolytically cleaved by thrombin to form factor VIIIa. Factor VIIIa exists as a non-covalent dimer in a metal-linked (probably calcium) complex and functions as a cofactor in the enzymatic activation of factor X by factor IXa. Factor VIIIa is similar in structure and generation to factor Va.
Proteins prepared by recombinant DNA technology.
Diseases of the domestic dog (Canis familiaris). This term does not include diseases of wild dogs, WOLVES; FOXES; and other Canidae for which the heading CARNIVORA is used.
Agents acting to arrest the flow of blood. Absorbable hemostatics arrest bleeding either by the formation of an artificial clot or by providing a mechanical matrix that facilitates clotting when applied directly to the bleeding surface. These agents function more at the capillary level and are not effective at stemming arterial or venous bleeding under any significant intravascular pressure.
Exogenous or endogenous compounds which inhibit SERINE ENDOPEPTIDASES.
A single-chain polypeptide derived from bovine tissues consisting of 58 amino-acid residues. It is an inhibitor of proteolytic enzymes including CHYMOTRYPSIN; KALLIKREIN; PLASMIN; and TRYPSIN. It is used in the treatment of HEMORRHAGE associated with raised plasma concentrations of plasmin. It is also used to reduce blood loss and transfusion requirements in patients at high risk of major blood loss during and following open heart surgery with EXTRACORPOREAL CIRCULATION. (Reynolds JEF(Ed): Martindale: The Extra Pharmacopoeia (electronic version). Micromedex, Inc, Englewood, CO, 1995)
The giving of drugs, chemicals, or other substances by mouth.
A high-molecular-weight plasma protein, produced by endothelial cells and megakaryocytes, that is part of the factor VIII/von Willebrand factor complex. The von Willebrand factor has receptors for collagen, platelets, and ristocetin activity as well as the immunologically distinct antigenic determinants. It functions in adhesion of platelets to collagen and hemostatic plug formation. The prolonged bleeding time in VON WILLEBRAND DISEASES is due to the deficiency of this factor.
Obstruction of a vein or VEINS (embolism) by a blood clot (THROMBUS) in the blood stream.
The long-term (minutes to hours) administration of a fluid into the vein through venipuncture, either by letting the fluid flow by gravity or by pumping it.
The introduction of whole blood or blood component directly into the blood stream. (Dorland, 27th ed)
Toxins closely associated with the living cytoplasm or cell wall of certain microorganisms, which do not readily diffuse into the culture medium, but are released upon lysis of the cells.
Acidic phospholipids composed of two molecules of phosphatidic acid covalently linked to a molecule of glycerol. They occur primarily in mitochondrial inner membranes and in bacterial plasma membranes. They are the main antigenic components of the Wassermann-type antigen that is used in nontreponemal SYPHILIS SERODIAGNOSIS.
A 44-kDa highly glycosylated plasma protein that binds phospholipids including CARDIOLIPIN; APOLIPOPROTEIN E RECEPTOR; membrane phospholipids, and other anionic phospholipid-containing moieties. It plays a role in coagulation and apoptotic processes. Formerly known as apolipoprotein H, it is an autoantigen in patients with ANTIPHOSPHOLIPID ANTIBODIES.
Injections made into a vein for therapeutic or experimental purposes.
Observation of a population for a sufficient number of persons over a sufficient number of years to generate incidence or mortality rates subsequent to the selection of the study group.
The formation or presence of a blood clot (THROMBUS) within a vein.
Activated form of factor V. It is an essential cofactor for the activation of prothrombin catalyzed by factor Xa.
Lipids containing one or more phosphate groups, particularly those derived from either glycerol (phosphoglycerides see GLYCEROPHOSPHOLIPIDS) or sphingosine (SPHINGOLIPIDS). They are polar lipids that are of great importance for the structure and function of cell membranes and are the most abundant of membrane lipids, although not stored in large amounts in the system.
Large, phagocytic mononuclear leukocytes produced in the vertebrate BONE MARROW and released into the BLOOD; contain a large, oval or somewhat indented nucleus surrounded by voluminous cytoplasm and numerous organelles.
Diversion of the flow of blood from the entrance of the right atrium directly to the aorta (or femoral artery) via an oxygenator thus bypassing both the heart and lungs.
A group of closely related cyclic undecapeptides from the fungi Trichoderma polysporum and Cylindocarpon lucidum. They have some antineoplastic and antifungal action and significant immunosuppressive effects. Cyclosporins have been proposed as adjuvants in tissue and organ transplantation to suppress graft rejection.
Hydrolases that specifically cleave the peptide bonds found in PROTEINS and PEPTIDES. Examples of sub-subclasses for this group include EXOPEPTIDASES and ENDOPEPTIDASES.
The range or frequency distribution of a measurement in a population (of organisms, organs or things) that has not been selected for the presence of disease or abnormality.
A group of simple proteins that yield basic amino acids on hydrolysis and that occur combined with nucleic acid in the sperm of fish. Protamines contain very few kinds of amino acids. Protamine sulfate combines with heparin to form a stable inactive complex; it is used to neutralize the anticoagulant action of heparin in the treatment of heparin overdose. (From Merck Index, 11th ed; Martindale, The Extra Pharmacopoeia, 30th ed, p692)
A proteolytic enzyme in the serine protease family found in many tissues which converts PLASMINOGEN to FIBRINOLYSIN. It has fibrin-binding activity and is immunologically different from UROKINASE-TYPE PLASMINOGEN ACTIVATOR. The primary sequence, composed of 527 amino acids, is identical in both the naturally occurring and synthetic proteases.
A basis of value established for the measure of quantity, weight, extent or quality, e.g. weight standards, standard solutions, methods, techniques, and procedures used in diagnosis and therapy.
A protein extracted from boiled culture of tubercle bacilli (MYCOBACTERIUM TUBERCULOSIS). It is used in the tuberculin skin test (TUBERCULIN TEST) for the diagnosis of tuberculosis infection in asymptomatic persons.
Compounds with a BENZENE fused to IMIDAZOLES.
A genus of the subfamily CERCOPITHECINAE, family CERCOPITHECIDAE, consisting of five named species: PAPIO URSINUS (chacma baboon), PAPIO CYNOCEPHALUS (yellow baboon), PAPIO PAPIO (western baboon), PAPIO ANUBIS (or olive baboon), and PAPIO HAMADRYAS (hamadryas baboon). Members of the Papio genus inhabit open woodland, savannahs, grassland, and rocky hill country. Some authors consider MANDRILLUS a subgenus of Papio.
An anatomic severity scale based on the Abbreviated Injury Scale (AIS) and developed specifically to score multiple traumatic injuries. It has been used as a predictor of mortality.
Partial proteins formed by partial hydrolysis of complete proteins or generated through PROTEIN ENGINEERING techniques.
Loss of blood during a surgical procedure.

Values of three coagulation screening tests of precolostral calves. (1/1913)

Prothrombin times, partial thromboplastin times and platelet counts were performed to determine normal values and to screen for coagulation defects of precolostral calves. The precolostral calves were in two groups: one group of a few calves was tested two years before the second larger group. The results for both groups were similar. The tests were performed on postcolostral calves and on mature cows to compare their values with those of precolostral calves. The mean values of prothrombin times and partial thromboplastin times of precolostral calves in the first group were 18.8 seconds and 54.8 seconds respectively. The mean values of prothrombin times and partial thromboplastin times of precolostral calves in the second group were 18.8 seconds and 50.8 seconds respectively. The mean platelet count was 422,400/cmm for the first group and 482,800/cmm for the second group.  (+info)

Vascular endothelial growth factor activates nuclear factor of activated T cells in human endothelial cells: a role for tissue factor gene expression. (2/1913)

Vascular endothelial growth factor (VEGF) is a potent angiogenic inducer that stimulates the expression of tissue factor (TF), the major cellular initiator of blood coagulation. Here we show that signaling triggered by VEGF induced DNA-binding and transcriptional activities of nuclear factor of activated T cells (NFAT) and AP-1 in human umbilical vein endothelial cells (HUVECs). VEGF also induced TF mRNA expression and gene promoter activation by a cyclosporin A (CsA)-sensitive mechanism. As in lymphoid cells, NFAT was dephosphorylated and translocated to the nucleus upon activation of HUVECs, and these processes were blocked by CsA. NFAT was involved in the VEGF-mediated TF promoter activation as evidenced by cotransfection experiments with a dominant negative version of NFAT and site-directed mutagenesis of a newly identified NFAT site within the TF promoter that overlaps with a previously identified kappaB-like site. Strikingly, this site bound exclusively NFAT not only from nuclear extracts of HUVECs activated by VEGF, a stimulus that failed to induce NF-kappaB-binding activity, but also from extracts of cells activated with phorbol esters and calcium ionophore, a combination of stimuli that triggered the simultaneous activation of NFAT and NF-kappaB. These results implicate NFAT in the regulation of endothelial genes by physiological means and shed light on the mechanisms that switch on the gene expression program induced by VEGF and those regulating TF gene expression.  (+info)

Expression of tissue factor in non-small-cell lung cancers and its relationship to metastasis. (3/1913)

Tissue factor (TF) is an initiator of the extrinsic cascade of blood coagulation. Although recent studies have revealed a relationship between metastatic properties and TF expression in some neoplastic cells, the significance of TF in lung cancer, especially in non-small-cell lung cancer (NSCLC), is still unclear. In this study, TF was detected in NSCLC cell lines by functional study, Western blot analysis and immunocytochemical staining. TF levels in eight NSCLC cell lines were also quantitated by enzyme-linked immunosorbent assay (ELISA), and TF expression was evaluated in 55 specimens of surgically resected NSCLCs. NSCLC cell lines derived from metastatic lesions produced high levels of TF (48.3+/-23.5 ng 10(-6) cells, mean +/- s.e.m.), whereas those derived from primary lesions produced low levels of TF (0.2+/-0.1 ng 10(-6) cells). Immunohistochemical studies disclosed significantly stronger staining for TF in cells from NSCLC patients with metastasis than in those without metastasis. Among the 28 patients with metastasis, ten were strongly positive, 16 were moderately positive and two were negative for TF. In contrast, among the 27 patients without metastasis, only two were strongly positive, 18 were moderately positive and seven were negative for TF. Therefore, malignant cells from patients with lung cancer produce various levels of TF, and TF may play an important role in the metastatic process.  (+info)

Electrostatic interactions during activation of coagulation factor IX via the tissue factor pathway: effect of univalent salts. (4/1913)

Interaction between the Gla-domain of coagulation proteins and negatively charged phospholipid membranes is essential for blood coagulation reactions. The interaction is calcium-dependent and mediated both by electrostatic and hydrophobic forces. This report focuses on the electrostatic component of factor IX activation via the extrinsic pathway. Effective charges during the reaction are measured by ionic titration of activity, according to the Debye-Huckel and Gouy-Chapman models. Rates of activation decrease with ionic strength independently of the type of monovalent salt used to control ionic strength. Moreover, the effect of ionic strength decreases at concentrations of charged phospholipid approaching saturation levels, indicating that membrane charges participate directly in the ionic interaction measured. The effective charge on calcium-bound factor IX during activation on phospholipid membranes is 0.95+/-0.1. Possible sites mediating contacts between the Gla-domain and membranes are selected by geometrical criteria in several metal-bound Gla-domain structures. A pocket with a solvent opening-pore of area 24-38 A2 is found in the Gla-domain of factors IX, VII, and prothrombin. The pocket contains atoms with negative partial charges, including carboxylate oxygens from Gla residues, and has a volume of 57-114 A3, sufficient to accommodate additional calcium atoms. These studies demonstrate that electrostatic forces modify the activity coefficient of factor IX during functional interactions and suggest a conserved pocket motif as the contact site between the calcium-bound Gla-domain and charged membranes.  (+info)

Arterial flow conditions downregulate thrombomodulin on saphenous vein endothelium. (5/1913)

BACKGROUND: The antithrombogenic properties of venous endothelium may be attenuated when vein is implanted in the arterial circulation. Such changes may facilitate thrombosis, which is the final common pathway for saphenous vein arterial bypass graft occlusion. METHODS AND RESULTS: Using human saphenous vein in a validated ex vivo flow circuit, we investigated (1) the possibility that arterial flow conditions (mean pressure, 100 mm Hg, 90 cpm, approximately 200 mL/min) alter the concentration of proteins involved in regulating thrombosis at the vessel wall and (2) the influence of ion channel blockade on such effects. Concentrations of thrombomodulin and tissue factor were quantified by Western blotting (ratio of von Willebrand factor staining) and immunohistochemistry (as a percentage of CD31-staining area). Thrombomodulin concentrations after 90 minutes of venous and arterial flow conditions were quantified by immunostaining (68.9+/-4.8% and 41.0+/-3.0% CD31, respectively; P<0.01) and by Western blotting (1.35+/-0.20 and 0. 15+/-0.03 ratio of von Willebrand factor, respectively; P<0.01). The ability of endothelial cells to generate activated protein C also decreased from 62+/-14 to 19+/-10 ng. min-1. 1000 cells-1 (P=0.01). The significant reduction in thrombomodulin was attenuated if calcium was removed from the perfusate but not by external vein stenting. Inclusion in the vein perfusate of drugs that reduce calcium entry (including Gd3+, to block stretch-activated ion channels, and nifedipine) abolished the reduction in thrombomodulin concentration observed after arterial flow conditions. In freshly excised vein, negligible concentrations of tissue factor were detected on the endothelium and concentrations did not increase after 90 minutes of arterial flow conditions, although the inclusion of nifedipine caused the immunostaining to increase from 3.0+/-0.4% to 8.5+/-0.7% CD31 (P<0.02). CONCLUSIONS: In saphenous vein endothelium exposed to arterial flow conditions, there is rapid downregulation of thrombomodulin, sufficient to limit protein C activation, by a calcium-dependent mechanism.  (+info)

Blood-borne tissue factor: another view of thrombosis. (6/1913)

Arterial thrombosis is considered to arise from the interaction of tissue factor (TF) in the vascular wall with platelets and coagulation factors in circulating blood. According to this paradigm, coagulation is initiated after a vessel is damaged and blood is exposed to vessel-wall TF. We have examined thrombus formation on pig arterial media (which contains no stainable TF) and on collagen-coated glass slides (which are devoid of TF) exposed to flowing native human blood. In both systems the thrombi that formed during a 5-min perfusion stained intensely for TF, much of which was not associated with cells. Antibodies against TF caused approximately 70% reduction in the amount of thrombus formed on the pig arterial media and also reduced thrombi on the collagen-coated glass slides. TF deposited on the slides was active, as there was abundant fibrin in the thrombi. Factor VIIai, a potent inhibitor of TF, essentially abolished fibrin production and markedly reduced the mass of the thrombi. Immunoelectron microscopy revealed TF-positive membrane vesicles that we frequently observed in large clusters near the surface of platelets. TF, measured by factor Xa formation, was extracted from whole blood and plasma of healthy subjects. By using immunostaining, TF-containing neutrophils and monocytes were identified in peripheral blood; our data raise the possibility that leukocytes are the main source of blood TF. We suggest that blood-borne TF is inherently thrombogenic and may be involved in thrombus propagation at the site of vascular injury.  (+info)

Cooperation between VEGF and TNF-alpha is necessary for exposure of active tissue factor on the surface of human endothelial cells. (7/1913)

This study was undertaken to characterize tissue factor (TF) induction, localization, and functional activity in cultured human umbilical vein endothelial cells (HUVECs) exposed to recombinant vascular endothelial growth factor (rVEGF) and recombinant tumor necrosis factor-alpha (rTNF-alpha). rVEGF (1 nmol/L) and rTNF-alpha (500 U/mL) synergistically increased TF mRNA, protein, and total activity, as measured in cell lysates. To examine surface TF expression, living cells were treated with antibody to TF and examined microscopically. Almost no staining was seen in control cells or cells treated with a single agent. In contrast, cells treated with both agonists showed intense membrane staining with surface patches, appearing as buds by confocal microscopy. To determine surface TF activity, studies were performed using a parallel-plate flow chamber, which allows detection of factor Xa generation on living cells. rVEGF and rTNF-alpha induced little surface TF activity (0.032+/-0.008 and 0.014+/-0.008 fmol/cm2, respectively). In combination, they significantly increased TF expression on the cell surface (0.429+/-0.094 fmol/cm2, P<0.05). These data indicate that the synergistic effect of rVEGF and rTNF-alpha is necessary to generate functional TF on the surface of endothelial cells. The requirement for multiple agonists to expose active TF may serve to protect endothelial cells from acting as a procoagulant surface, even under conditions of cell perturbation.  (+info)

Guinea-pig milk-protein synthesis. Isolation and characterization of messenger ribonucleic acids from lactating mammary gland and identification of caseins and pre-alpha-lactalbumin as translation products in heterologous cell-free systems. (8/1913)

1. The major milk proteins synthesized by the lactating mammary gland of the guinea pig were identified and designated as caseins A, B and C and alpha-lactalbumin, with estimated mol.wts. of 28000, 25500, 20500 and 14500 respectively. 2. Antisera to the total casein fraction and to alpha-lactalbumin were prepared from rabbits. The milk proteins were also iodinated with either 131I or 125I. 3. A poly(A)-rich RNA fraction was isolated from lactating guinea-pig mammary glands. Isolation was by affinity chromatography on oligo(dT)-cellulose. 4. Examination of this RNA fraction by electrophoresis on polyacrylamide gels containing formamide indicated three major species 1, 2 and 3, with estimated wol.wts. of 5.4 X 10(5) and 3.3 X 10(5), and the apparent absence of rRNA species. 5. The poly(A)-rich RNA stimulated protein synthesis in heterologous cell-free systems based on wheat germ, Krebs II ascites-tumour cells, and the latter supplemented with an initiation factor-3 fraction from rabbit reticulocyte ribosomes. 6. Between 80 and 90% of the protein synthesis directed by the mRNA was for milk proteins. 7. Analysis of the proteins immunoprecipitated by the alpha-lactalbumin antiserum showed in the wheat-germ system that the product was a protein with a molecular weight greater than that of alpha-lactalbumin, whereas in the ascites-tumour-cell systems both this protein and alpha-lactalbumin were found. When the larger protein was treated with CNBr and the resulting peptides were examined, it was shown that the extra peptide was at the N-terminus. This and other evidence is adduced for the initial translation product of alpha-lactalbumin being a precursor with an addition of about ten amino acids at the N-terminus. 8. Similar analysis of the casein immlnospecific proteins produced under the direction of mRNA indicated that the products had a molecular weight that was apparently a littel smaller than that of the caseins synthesized in vivo. This was not consistent with higher-molecular weight casein precursors. 9. Possible explanations for the results obtained are discussed, especially in terms of the physiological significance of the pre-alpha-lactalbumin as a secretory protein.  (+info)

Partial Thromboplastin Time (PTT) is a medical laboratory test that measures the time it takes for blood to clot. It's more specifically a measure of the intrinsic and common pathways of the coagulation cascade, which are the series of chemical reactions that lead to the formation of a clot.

The test involves adding a partial thromboplastin reagent (an activator of the intrinsic pathway) and calcium to plasma, and then measuring the time it takes for a fibrin clot to form. This is compared to a control sample, and the ratio of the two times is calculated.

The PTT test is often used to help diagnose bleeding disorders or abnormal blood clotting, such as hemophilia or disseminated intravascular coagulation (DIC). It can also be used to monitor the effectiveness of anticoagulant therapy, such as heparin. Prolonged PTT results may indicate a bleeding disorder or an increased risk of bleeding, while shortened PTT results may indicate a hypercoagulable state and an increased risk of thrombosis.

Thromboplastin is a substance that activates the coagulation cascade, leading to the formation of a clot (thrombus). It's primarily found in damaged or injured tissues and blood vessels, as well as in platelets (thrombocytes). There are two types of thromboplastin:

1. Extrinsic thromboplastin (also known as tissue factor): This is a transmembrane glycoprotein that is primarily found in subendothelial cells and released upon injury to the blood vessels. It initiates the extrinsic pathway of coagulation by binding to and activating Factor VII, ultimately leading to the formation of thrombin and fibrin clots.
2. Intrinsic thromboplastin (also known as plasma thromboplastin or factor III): This term is used less frequently and refers to a labile phospholipid component present in platelet membranes, which plays a role in the intrinsic pathway of coagulation.

In clinical settings, the term "thromboplastin" often refers to reagents used in laboratory tests like the prothrombin time (PT) and activated partial thromboplastin time (aPTT). These reagents contain a source of tissue factor and calcium ions to initiate and monitor the coagulation process.

Prothrombin time (PT) is a medical laboratory test that measures the time it takes for blood to clot. It's often used to evaluate the functioning of the extrinsic and common pathways of the coagulation system, which is responsible for blood clotting. Specifically, PT measures how long it takes for prothrombin (a protein produced by the liver) to be converted into thrombin, an enzyme that converts fibrinogen into fibrin and helps form a clot.

Prolonged PT may indicate a bleeding disorder or a deficiency in coagulation factors, such as vitamin K deficiency or the use of anticoagulant medications like warfarin. It's important to note that PT is often reported with an international normalized ratio (INR), which allows for standardization and comparison of results across different laboratories and reagent types.

Blood coagulation tests, also known as coagulation studies or clotting tests, are a series of medical tests used to evaluate the blood's ability to clot. These tests measure the functioning of various clotting factors and regulatory proteins involved in the coagulation cascade, which is a complex process that leads to the formation of a blood clot to prevent excessive bleeding.

The most commonly performed coagulation tests include:

1. Prothrombin Time (PT): Measures the time it takes for a sample of plasma to clot after the addition of calcium and tissue factor, which activates the extrinsic pathway of coagulation. The PT is reported in seconds and can be converted to an International Normalized Ratio (INR) to monitor anticoagulant therapy.
2. Activated Partial Thromboplastin Time (aPTT): Measures the time it takes for a sample of plasma to clot after the addition of calcium, phospholipid, and a contact activator, which activates the intrinsic pathway of coagulation. The aPTT is reported in seconds and is used to monitor heparin therapy.
3. Thrombin Time (TT): Measures the time it takes for a sample of plasma to clot after the addition of thrombin, which directly converts fibrinogen to fibrin. The TT is reported in seconds and can be used to detect the presence of fibrin degradation products or abnormalities in fibrinogen function.
4. Fibrinogen Level: Measures the amount of fibrinogen, a protein involved in clot formation, present in the blood. The level is reported in grams per liter (g/L) and can be used to assess bleeding risk or the effectiveness of fibrinogen replacement therapy.
5. D-dimer Level: Measures the amount of D-dimer, a protein fragment produced during the breakdown of a blood clot, present in the blood. The level is reported in micrograms per milliliter (µg/mL) and can be used to diagnose or exclude venous thromboembolism (VTE), such as deep vein thrombosis (DVT) or pulmonary embolism (PE).

These tests are important for the diagnosis, management, and monitoring of various bleeding and clotting disorders. They can help identify the underlying cause of abnormal bleeding or clotting, guide appropriate treatment decisions, and monitor the effectiveness of therapy. It is essential to interpret these test results in conjunction with a patient's clinical presentation and medical history.

Blood coagulation, also known as blood clotting, is a complex process that occurs in the body to prevent excessive bleeding when a blood vessel is damaged. This process involves several different proteins and chemical reactions that ultimately lead to the formation of a clot.

The coagulation cascade is initiated when blood comes into contact with tissue factor, which is exposed after damage to the blood vessel wall. This triggers a series of enzymatic reactions that activate clotting factors, leading to the formation of a fibrin clot. Fibrin is a protein that forms a mesh-like structure that traps platelets and red blood cells to form a stable clot.

Once the bleeding has stopped, the coagulation process is regulated and inhibited to prevent excessive clotting. The fibrinolytic system degrades the clot over time, allowing for the restoration of normal blood flow.

Abnormalities in the blood coagulation process can lead to bleeding disorders or thrombotic disorders such as deep vein thrombosis and pulmonary embolism.

Blood coagulation disorders, also known as bleeding disorders or clotting disorders, refer to a group of medical conditions that affect the body's ability to form blood clots properly. Normally, when a blood vessel is injured, the body's coagulation system works to form a clot to stop the bleeding and promote healing.

In blood coagulation disorders, there can be either an increased tendency to bleed due to problems with the formation of clots (hemorrhagic disorder), or an increased tendency for clots to form inappropriately even without injury, leading to blockages in the blood vessels (thrombotic disorder).

Examples of hemorrhagic disorders include:

1. Hemophilia - a genetic disorder that affects the ability to form clots due to deficiencies in clotting factors VIII or IX.
2. Von Willebrand disease - another genetic disorder caused by a deficiency or abnormality of the von Willebrand factor, which helps platelets stick together to form a clot.
3. Liver diseases - can lead to decreased production of coagulation factors, increasing the risk of bleeding.
4. Disseminated intravascular coagulation (DIC) - a serious condition where clotting and bleeding occur simultaneously due to widespread activation of the coagulation system.

Examples of thrombotic disorders include:

1. Factor V Leiden mutation - a genetic disorder that increases the risk of inappropriate blood clot formation.
2. Antithrombin III deficiency - a genetic disorder that impairs the body's ability to break down clots, increasing the risk of thrombosis.
3. Protein C or S deficiencies - genetic disorders that lead to an increased risk of thrombosis due to impaired regulation of the coagulation system.
4. Antiphospholipid syndrome (APS) - an autoimmune disorder where the body produces antibodies against its own clotting factors, increasing the risk of thrombosis.

Treatment for blood coagulation disorders depends on the specific diagnosis and may include medications to manage bleeding or prevent clots, as well as lifestyle changes and monitoring to reduce the risk of complications.

Thrombin time (TT) is a medical laboratory test that measures the time it takes for a clot to form after thrombin, an enzyme that converts fibrinogen to fibrin in the final step of the coagulation cascade, is added to a plasma sample. This test is used to evaluate the efficiency of the conversion of fibrinogen to fibrin and can be used to detect the presence of abnormalities in the coagulation system, such as the presence of heparin or dysfibrinogenemia. Increased thrombin time may indicate the presence of a systemic anticoagulant or a deficiency in fibrinogen.

Heparin is defined as a highly sulfated glycosaminoglycan (a type of polysaccharide) that is widely present in many tissues, but is most commonly derived from the mucosal tissues of mammalian lungs or intestinal mucosa. It is an anticoagulant that acts as an inhibitor of several enzymes involved in the blood coagulation cascade, primarily by activating antithrombin III which then neutralizes thrombin and other clotting factors.

Heparin is used medically to prevent and treat thromboembolic disorders such as deep vein thrombosis, pulmonary embolism, and certain types of heart attacks. It can also be used during hemodialysis, cardiac bypass surgery, and other medical procedures to prevent the formation of blood clots.

It's important to note that while heparin is a powerful anticoagulant, it does not have any fibrinolytic activity, meaning it cannot dissolve existing blood clots. Instead, it prevents new clots from forming and stops existing clots from growing larger.

Anticoagulants are a class of medications that work to prevent the formation of blood clots in the body. They do this by inhibiting the coagulation cascade, which is a series of chemical reactions that lead to the formation of a clot. Anticoagulants can be given orally, intravenously, or subcutaneously, depending on the specific drug and the individual patient's needs.

There are several different types of anticoagulants, including:

1. Heparin: This is a naturally occurring anticoagulant that is often used in hospitalized patients who require immediate anticoagulation. It works by activating an enzyme called antithrombin III, which inhibits the formation of clots.
2. Low molecular weight heparin (LMWH): LMWH is a form of heparin that has been broken down into smaller molecules. It has a longer half-life than standard heparin and can be given once or twice daily by subcutaneous injection.
3. Direct oral anticoagulants (DOACs): These are newer oral anticoagulants that work by directly inhibiting specific clotting factors in the coagulation cascade. Examples include apixaban, rivaroxaban, and dabigatran.
4. Vitamin K antagonists: These are older oral anticoagulants that work by inhibiting the action of vitamin K, which is necessary for the formation of clotting factors. Warfarin is an example of a vitamin K antagonist.

Anticoagulants are used to prevent and treat a variety of conditions, including deep vein thrombosis (DVT), pulmonary embolism (PE), atrial fibrillation, and prosthetic heart valve thrombosis. It is important to note that anticoagulants can increase the risk of bleeding, so they must be used with caution and regular monitoring of blood clotting times may be required.

Blood coagulation factors, also known as clotting factors, are a group of proteins that play a crucial role in the blood coagulation process. They are essential for maintaining hemostasis, which is the body's ability to stop bleeding after injury.

There are 13 known blood coagulation factors, and they are designated by Roman numerals I through XIII. These factors are produced in the liver and are normally present in an inactive form in the blood. When there is an injury to a blood vessel, the coagulation process is initiated, leading to the activation of these factors in a specific order.

The coagulation cascade involves two pathways: the intrinsic and extrinsic pathways. The intrinsic pathway is activated when there is damage to the blood vessel itself, while the extrinsic pathway is activated by tissue factor released from damaged tissues. Both pathways converge at the common pathway, leading to the formation of a fibrin clot.

Blood coagulation factors work together in a complex series of reactions that involve activation, binding, and proteolysis. When one factor is activated, it activates the next factor in the cascade, and so on. This process continues until a stable fibrin clot is formed.

Deficiencies or abnormalities in blood coagulation factors can lead to bleeding disorders such as hemophilia or thrombosis. Hemophilia is a genetic disorder that affects one or more of the coagulation factors, leading to excessive bleeding and difficulty forming clots. Thrombosis, on the other hand, occurs when there is an abnormal formation of blood clots in the blood vessels, which can lead to serious complications such as stroke or pulmonary embolism.

Hemostasis is the physiological process that occurs to stop bleeding (bleeding control) when a blood vessel is damaged. This involves the interaction of platelets, vasoconstriction, and blood clotting factors leading to the formation of a clot. The ultimate goal of hemostasis is to maintain the integrity of the vascular system while preventing excessive blood loss.

Factor XI, also known as plasma thromboplastin antecedent (PTA) or antihemophilic factor C, is a protein involved in blood coagulation. It is one of the factors in the intrinsic pathway of coagulation, which is activated when blood comes into contact with negatively charged surfaces, such as damaged blood vessels.

When Factor XI is activated (usually by thrombin or activated Factor XII), it activates more Factor XI and also activates Factor IX, leading to the formation of a complex that converts Factor X to its active form, Factor Xa. This ultimately leads to the formation of a fibrin clot and helps to stop bleeding.

Deficiencies in Factor XI can lead to an increased risk of bleeding, although the severity of the bleeding disorder can vary widely among individuals with Factor XI deficiency. Treatment for Factor XI deficiency typically involves replacement therapy with fresh frozen plasma or recombinant Factor XI concentrate.

Antithrombins are substances that prevent the formation or promote the dissolution of blood clots (thrombi). They include:

1. Anticoagulants: These are medications that reduce the ability of the blood to clot. Examples include heparin, warfarin, and direct oral anticoagulants (DOACs) such as apixaban, rivaroxaban, and dabigatran.
2. Thrombolytic agents: These are medications that break down existing blood clots. Examples include alteplase, reteplase, and tenecteplase.
3. Fibrinolytics: These are a type of thrombolytic agent that specifically target fibrin, a protein involved in the formation of blood clots.
4. Natural anticoagulants: These are substances produced by the body to regulate blood clotting. Examples include antithrombin III, protein C, and protein S.

Antithrombins are used in the prevention and treatment of various thromboembolic disorders, such as deep vein thrombosis (DVT), pulmonary embolism (PE), stroke, and myocardial infarction (heart attack). It is important to note that while antithrombins can help prevent or dissolve blood clots, they also increase the risk of bleeding, so their use must be carefully monitored.

Disseminated Intravascular Coagulation (DIC) is a complex medical condition characterized by the abnormal activation of the coagulation cascade, leading to the formation of blood clots in small blood vessels throughout the body. This process can result in the consumption of clotting factors and platelets, which can then lead to bleeding complications. DIC can be caused by a variety of underlying conditions, including sepsis, trauma, cancer, and obstetric emergencies.

The term "disseminated" refers to the widespread nature of the clotting activation, while "intravascular" indicates that the clotting is occurring within the blood vessels. The condition can manifest as both bleeding and clotting complications, which can make it challenging to diagnose and manage.

The diagnosis of DIC typically involves laboratory tests that evaluate coagulation factors, platelet count, fibrin degradation products, and other markers of coagulation activation. Treatment is focused on addressing the underlying cause of the condition while also managing any bleeding or clotting complications that may arise.

The International Normalized Ratio (INR) is a standardized measurement of the prothrombin time (PT), which is the time it takes for blood to clot. The INR is used to monitor and regulate the effects of anticoagulant medications, such as warfarin, that affect the blood's ability to clot.

The INR is calculated by dividing the patient's PT by a control value (the PT of normal, healthy blood), raised to the power of a sensitivity factor called the International Sensitivity Index (ISI). The ISI is specific to the thromboplastin reagent used in the PT assay.

The INR provides a consistent and comparable way to monitor anticoagulation therapy across different laboratories, regardless of the thromboplastin reagent used. This helps ensure that patients receive appropriate doses of anticoagulant medications and reduces the risk of bleeding or clotting complications.

In general, an INR range of 2.0 to 3.0 is recommended for most people taking anticoagulants for conditions such as atrial fibrillation, deep vein thrombosis, or pulmonary embolism. However, the target INR range may vary depending on individual patient factors and medical indications.

Bleeding time is a medical test that measures the time it takes for a small blood vessel to stop bleeding after being cut. It's used to evaluate platelet function and the effectiveness of blood clotting. The most common method used to measure bleeding time is the Ivy method, which involves making a standardized incision on the forearm and measuring the time it takes for the bleeding to stop. A normal bleeding time ranges from 2 to 9 minutes, but this can vary depending on the specific method used. Prolonged bleeding time may indicate an impairment in platelet function or clotting factor deficiency.

Thromboelastography (TEG) is a viscoelastic method used to assess the kinetics of clot formation, clot strength, and fibrinolysis in whole blood. It provides a global assessment of hemostasis by measuring the mechanical properties of a clot as it forms and dissolves over time. The TEG graph displays several parameters that reflect the different stages of clotting, including reaction time (R), clot formation time (K), angle of clot formation (α), maximum amplitude (MA), and percentage lysis at 30 minutes (LY30). These parameters can help guide transfusion therapy and inform decisions regarding the management of coagulopathy in various clinical settings, such as trauma, cardiac surgery, liver transplantation, and obstetrics.

I'm sorry for any confusion, but "Lupus Coagulation Inhibitor" is not a recognized medical term or concept in hematology or immunology.

Systemic Lupus Erythematosus (SLE), often referred to simply as lupus, is an autoimmune disease where the body's immune system mistakenly attacks healthy tissue. However, this does not result in a specific coagulation inhibitor.

If you're asking about lupus anticoagulants, these are antibodies that can interfere with clotting tests but paradoxically increase the risk of blood clots in vivo. They are sometimes seen in patients with SLE and other autoimmune diseases.

Please provide more context if you meant something else, so I can give a more accurate response.

Fibrinogen is a soluble protein present in plasma, synthesized by the liver. It plays an essential role in blood coagulation. When an injury occurs, fibrinogen gets converted into insoluble fibrin by the action of thrombin, forming a fibrin clot that helps to stop bleeding from the injured site. Therefore, fibrinogen is crucial for hemostasis, which is the process of stopping bleeding and starting the healing process after an injury.

Factor VII, also known as proconvertin, is a protein involved in the coagulation cascade, which is a series of chemical reactions that leads to the formation of a blood clot. Factor VII is synthesized in the liver and is activated when it comes into contact with tissue factor, which is exposed when blood vessels are damaged. Activated Factor VII then activates Factor X, leading to the formation of thrombin and ultimately a fibrin clot.

Inherited deficiencies or dysfunctions of Factor VII can lead to an increased risk of bleeding, while elevated levels of Factor VII have been associated with an increased risk of thrombosis (blood clots).

Hemorrhagic disorders are medical conditions characterized by abnormal bleeding due to impaired blood clotting. This can result from deficiencies in coagulation factors, platelet dysfunction, or the use of medications that interfere with normal clotting processes. Examples include hemophilia, von Willebrand disease, and disseminated intravascular coagulation (DIC). Treatment often involves replacing the missing clotting factor or administering medications to help control bleeding.

Antithrombin III is a protein that inhibits the formation of blood clots (thrombi) in the body. It does this by inactivating several enzymes involved in coagulation, including thrombin and factor Xa. Antithrombin III is produced naturally by the liver and is also available as a medication for the prevention and treatment of thromboembolic disorders, such as deep vein thrombosis and pulmonary embolism. It works by binding to and neutralizing excess clotting factors in the bloodstream, thereby reducing the risk of clot formation.

Prothrombin is a protein present in blood plasma, and it's also known as coagulation factor II. It plays a crucial role in the coagulation cascade, which is a complex series of reactions that leads to the formation of a blood clot.

When an injury occurs, the coagulation cascade is initiated to prevent excessive blood loss. Prothrombin is converted into its active form, thrombin, by another factor called factor Xa in the presence of calcium ions, phospholipids, and factor Va. Thrombin then catalyzes the conversion of fibrinogen into fibrin, forming a stable clot.

Prothrombin levels can be measured through a blood test, which is often used to diagnose or monitor conditions related to bleeding or coagulation disorders, such as liver disease or vitamin K deficiency.

Hirudin is not a medical term itself, but it is a specific substance with medical relevance. Hirudin is a naturally occurring anticoagulant that is found in the saliva of certain species of leeches (such as Hirudo medicinalis). This compound works by inhibiting the activity of thrombin, a key enzyme in the coagulation cascade, which ultimately results in preventing blood clot formation.

Medically, hirudin has been used in some research and therapeutic settings for its anticoagulant properties. For instance, recombinant hirudin (also known as lepirudin) is available for clinical use as an injectable anticoagulant to treat or prevent blood clots in specific medical conditions, such as heparin-induced thrombocytopenia (HIT).

In summary, Hirudins are a group of anticoagulant substances, primarily derived from leeches, that inhibit the activity of thrombin and have potential medical applications in preventing or treating blood clots.

Factor XI deficiency, also known as Hemophilia C or Rosenthal syndrome, is a rare bleeding disorder caused by a deficiency or dysfunction of coagulation factor XI. This protease plays an important role in the intrinsic pathway of blood coagulation. Factor XI deficiency can lead to prolonged bleeding after surgery, trauma, or menstruation, but it typically does not cause spontaneous bleeding like Hemophilia A and B. The severity of the condition varies widely among affected individuals. Inheritance is autosomal recessive, meaning that two defective copies of the gene (one from each parent) are necessary to have the disease.

Factor VIII is a protein in the blood that is essential for normal blood clotting. It is also known as antihemophilic factor (AHF). Deficiency or dysfunction of this protein results in hemophilia A, a genetic disorder characterized by prolonged bleeding and easy bruising. Factor VIII works together with other proteins to help form a clot and stop bleeding at the site of an injury. It acts as a cofactor for another clotting factor, IX, in the so-called intrinsic pathway of blood coagulation. Intravenous infusions of Factor VIII concentrate are used to treat and prevent bleeding episodes in people with hemophilia A.

Kaolin is not a medical term per se, but it is a mineral that has various applications in the medical field. Medically, kaolin is used as an ingredient in some over-the-counter (OTC) medications and clinical products, particularly in oral and topical formulations.

Medical definition: Kaolin is a natural hydrated aluminum silicate clay mineral (with the chemical formula Al2Si2O5(OH)4) used in medical applications as an antidiarrheal agent and as a component in various dermatological products for its absorbent, protective, and soothing properties.

Hirudin therapy, also known as leech therapy, is a type of treatment that uses the saliva of medicinal leeches (Hirudo medicinalis) to alleviate symptoms and promote healing. The saliva of these leeches contains various bioactive compounds, including hirudin, which is a potent anticoagulant that prevents blood clotting.

In hirudin therapy, leeches are applied to specific areas of the body, usually on congested tissues or sites of stasis, where they feed on the patient's blood and release their saliva into the bite site. The hirudin in the saliva helps to dissolve blood clots, improve circulation, reduce swelling, and relieve pain.

Hirudin therapy is used in various medical conditions, such as arterial and venous insufficiency, skin ulcers, joint diseases, and post-surgical recovery, particularly after reconstructive surgery or organ transplantation. It can also be used to treat thrombophlebitis, varicose veins, and other circulatory disorders.

It is essential to note that hirudin therapy should only be performed by trained medical professionals in a controlled environment due to the potential risks associated with infection transmission and bleeding complications.

Hypoprothrombinemia is a medical condition characterized by a decreased level of prothrombin (coagulation factor II) in the blood, which can lead to an increased bleeding tendency. Prothrombin is a protein involved in the coagulation cascade that helps to form blood clots and stop bleeding.

Hypoprothrombinemia can be caused by various factors, including vitamin K deficiency, liver disease, inherited or acquired disorders of prothrombin synthesis, or the use of certain medications such as warfarin. Symptoms may include easy bruising, prolonged bleeding from cuts or injuries, nosebleeds, and in severe cases, internal bleeding. Treatment typically involves addressing the underlying cause and may include vitamin K supplementation, fresh frozen plasma transfusions, or other specific therapies depending on the etiology of the condition.

Pipicolic acid is not a term that refers to a specific medical condition or disease. Instead, it is a metabolite that is involved in the body's metabolic processes.

Pipicolic acid is a type of organic compound called a cyclic amino acid, which is derived from the amino acid lysine. It is produced in the liver and is excreted in urine. Pipicolic acid has been found to have various functions in the body, including regulating the metabolism of lipids and bile acids.

Abnormal levels of pipicolic acid in the body may be associated with certain medical conditions, such as liver disease or genetic disorders that affect amino acid metabolism. However, pipicolic acid is not typically used as a diagnostic marker for these conditions.

In summary, pipicolic acid is a cyclic amino acid produced in the liver and involved in various metabolic processes in the body. Abnormal levels of pipicolic acid may be associated with certain medical conditions but are not typically used as diagnostic markers.

Thrombin is a serine protease enzyme that plays a crucial role in the coagulation cascade, which is a complex series of biochemical reactions that leads to the formation of a blood clot (thrombus) to prevent excessive bleeding during an injury. Thrombin is formed from its precursor protein, prothrombin, through a process called activation, which involves cleavage by another enzyme called factor Xa.

Once activated, thrombin converts fibrinogen, a soluble plasma protein, into fibrin, an insoluble protein that forms the structural framework of a blood clot. Thrombin also activates other components of the coagulation cascade, such as factor XIII, which crosslinks and stabilizes the fibrin network, and platelets, which contribute to the formation and growth of the clot.

Thrombin has several regulatory mechanisms that control its activity, including feedback inhibition by antithrombin III, a plasma protein that inactivates thrombin and other serine proteases, and tissue factor pathway inhibitor (TFPI), which inhibits the activation of factor Xa, thereby preventing further thrombin formation.

Overall, thrombin is an essential enzyme in hemostasis, the process that maintains the balance between bleeding and clotting in the body. However, excessive or uncontrolled thrombin activity can lead to pathological conditions such as thrombosis, atherosclerosis, and disseminated intravascular coagulation (DIC).

Blood coagulation disorders, inherited, also known as coagulopathies, are genetic conditions that affect the body's ability to form blood clots in response to injury or damage to blood vessels. These disorders can lead to excessive bleeding or hemorrhage, and in some cases, abnormal clotting.

There are several types of inherited blood coagulation disorders, including:

1. Hemophilia A and B: These are X-linked recessive disorders that affect the production of factors VIII and IX, respectively, which are essential for normal blood clotting. People with hemophilia may experience prolonged bleeding after injury or surgery, and spontaneous bleeding into joints and muscles.
2. Von Willebrand disease: This is the most common inherited coagulation disorder, affecting both men and women. It results from a deficiency or abnormality of von Willebrand factor, a protein that helps platelets stick to damaged blood vessels and assists in the activation of factor VIII. People with von Willebrand disease may experience excessive bleeding after injury, surgery, or dental work.
3. Factor XI deficiency: This is an autosomal recessive disorder that affects the production of factor XI, a protein involved in the intrinsic pathway of blood coagulation. People with factor XI deficiency may have a mild to moderate bleeding tendency, particularly after surgery or trauma.
4. Rare coagulation factor deficiencies: There are several other rare inherited coagulation disorders that affect the production of other clotting factors, such as factors II, V, VII, X, and XIII. These conditions can lead to a range of bleeding symptoms, from mild to severe.

Inherited blood coagulation disorders are usually diagnosed through a combination of medical history, physical examination, and laboratory tests that measure the levels and function of clotting factors in the blood. Treatment may include replacement therapy with purified clotting factor concentrates, medications to control bleeding, and management of bleeding symptoms as they arise.

Hemophilia A is a genetic bleeding disorder caused by a deficiency in clotting factor VIII. This results in impaired blood clotting and prolonged bleeding, particularly after injuries or surgeries. Symptoms can range from mild to severe, with the most severe form resulting in spontaneous bleeding into joints and muscles, leading to pain, swelling, and potential joint damage over time. Hemophilia A primarily affects males, as it is an X-linked recessive disorder, and is usually inherited from a carrier mother. However, about one third of cases result from a spontaneous mutation in the gene for factor VIII. Treatment typically involves replacement therapy with infusions of factor VIII concentrates to prevent or control bleeding episodes.

Factor Xa is a serine protease that plays a crucial role in the coagulation cascade, which is a series of reactions that lead to the formation of a blood clot. It is one of the activated forms of Factor X, a pro-protein that is converted to Factor Xa through the action of other enzymes in the coagulation cascade.

Factor Xa functions as a key component of the prothrombinase complex, which also includes calcium ions, phospholipids, and activated Factor V (also known as Activated Protein C or APC). This complex is responsible for converting prothrombin to thrombin, which then converts fibrinogen to fibrin, forming a stable clot.

Inhibitors of Factor Xa are used as anticoagulants in the prevention and treatment of thromboembolic disorders such as deep vein thrombosis and pulmonary embolism. These drugs work by selectively inhibiting Factor Xa, thereby preventing the formation of the prothrombinase complex and reducing the risk of clot formation.

A platelet count is a laboratory test that measures the number of platelets, also known as thrombocytes, in a sample of blood. Platelets are small, colorless cell fragments that circulate in the blood and play a crucial role in blood clotting. They help to stop bleeding by sticking together to form a plug at the site of an injured blood vessel.

A normal platelet count ranges from 150,000 to 450,000 platelets per microliter (µL) of blood. A lower than normal platelet count is called thrombocytopenia, while a higher than normal platelet count is known as thrombocytosis.

Abnormal platelet counts can be a sign of various medical conditions, including bleeding disorders, infections, certain medications, and some types of cancer. It is important to consult with a healthcare provider if you have any concerns about your platelet count or if you experience symptoms such as easy bruising, prolonged bleeding, or excessive menstrual flow.

Hemorrhage is defined in the medical context as an excessive loss of blood from the circulatory system, which can occur due to various reasons such as injury, surgery, or underlying health conditions that affect blood clotting or the integrity of blood vessels. The bleeding may be internal, external, visible, or concealed, and it can vary in severity from minor to life-threatening, depending on the location and extent of the bleeding. Hemorrhage is a serious medical emergency that requires immediate attention and treatment to prevent further blood loss, organ damage, and potential death.

Factor IX is also known as Christmas factor, which is a protein that plays a crucial role in the coagulation cascade, a series of chemical reactions that leads to the formation of a blood clot. It is one of the essential components required for the proper functioning of the body's natural blood-clotting mechanism.

Factor IX is synthesized in the liver and activated when it comes into contact with an injured blood vessel. Once activated, it collaborates with other factors to convert factor X to its active form, which then converts prothrombin to thrombin. Thrombin is responsible for converting fibrinogen to fibrin, forming a stable fibrin clot that helps stop bleeding and promote healing.

Deficiencies in Factor IX can lead to hemophilia B, a genetic disorder characterized by prolonged bleeding and an increased risk of spontaneous bleeding. Hemophilia B is inherited in an X-linked recessive pattern, meaning it primarily affects males, while females serve as carriers of the disease. Treatment for hemophilia B typically involves replacing the missing or deficient Factor IX through infusions to prevent or manage bleeding episodes.

Factor XII, also known as Hageman factor, is a protein that plays a role in the coagulation cascade, which is the series of events that leads to the formation of a blood clot. It is one of the zymogens, or inactive precursor proteins, that becomes activated and helps to trigger the coagulation process.

When Factor XII comes into contact with negatively charged surfaces, such as damaged endothelial cells or artificial surfaces like those found on medical devices, it undergoes a conformational change and becomes activated. Activated Factor XII then activates other proteins in the coagulation cascade, including Factor XI, which ultimately leads to the formation of a fibrin clot.

Deficiencies in Factor XII are generally not associated with bleeding disorders, as the coagulation cascade can still proceed through other pathways. However, excessive activation of Factor XII has been implicated in certain thrombotic disorders, such as deep vein thrombosis and disseminated intravascular coagulation (DIC).

Coagulants are substances that promote the process of coagulation or clotting. They are often used in medical settings to help control bleeding and promote healing. Coagulants work by encouraging the formation of a clot, which helps to stop the flow of blood from a wound or cut.

There are several different types of coagulants that may be used in medical treatments. Some coagulants are naturally occurring substances, such as vitamin K, which is essential for the production of certain clotting factors in the body. Other coagulants may be synthetic or semi-synthetic compounds, such as recombinant activated factor VII (rFVIIa), which is used to treat bleeding disorders and prevent excessive bleeding during surgery.

Coagulants are often administered through injection or infusion, but they can also be applied topically to wounds or cuts. In some cases, coagulants may be used in combination with other treatments, such as compression or cauterization, to help control bleeding and promote healing.

It is important to note that while coagulants can be helpful in controlling bleeding and promoting healing, they can also increase the risk of blood clots and other complications. As a result, they should only be used under the guidance and supervision of a qualified healthcare professional.

Factor VII deficiency is a bleeding disorder that is caused by a deficiency or dysfunction of coagulation factor VII, which is a protein involved in the coagulation cascade and is necessary for the initiation of blood clotting. This condition can lead to prolonged bleeding after injury or surgery, easy bruising, and spontaneous bleeding. The severity of the disorder varies widely, depending on the level of factor VII activity. In severe cases, factor VII activity may be less than 1% of normal, leading to a high risk of bleeding. In milder cases, factor VII activity may be between 5-40% of normal, leading to a lower risk of bleeding. Treatment typically involves replacement therapy with fresh frozen plasma or recombinant factor VIIa to control bleeding episodes and prevent complications.

Fibrinolysis is the natural process in the body that leads to the dissolution of blood clots. It is a vital part of hemostasis, the process that regulates bleeding and wound healing. Fibrinolysis occurs when plasminogen activators convert plasminogen to plasmin, an enzyme that breaks down fibrin, the insoluble protein mesh that forms the structure of a blood clot. This process helps to prevent excessive clotting and maintains the fluidity of the blood. In medical settings, fibrinolysis can also refer to the therapeutic use of drugs that stimulate this process to dissolve unwanted or harmful blood clots, such as those that cause deep vein thrombosis or pulmonary embolism.

Protein C is a vitamin K-dependent protease that functions as an important regulator of coagulation and inflammation. It is a plasma protein produced in the liver that, when activated, degrades clotting factors Va and VIIIa to limit thrombus formation and prevent excessive blood clotting. Protein C also has anti-inflammatory properties by inhibiting the release of pro-inflammatory cytokines and reducing endothelial cell activation. Inherited or acquired deficiencies in Protein C can lead to an increased risk of thrombosis, a condition characterized by abnormal blood clot formation within blood vessels.

Hemophilia B is a genetic disorder that affects the body's ability to control blood clotting, also known as coagulation. This condition is caused by a deficiency or dysfunction in Factor IX, one of the proteins essential for normal blood clotting. As a result, people with Hemophilia B experience prolonged bleeding and bruising after injuries, surgeries, or spontaneously, particularly in joints and muscles.

There are different degrees of severity, depending on how much Factor IX is missing or not functioning properly. Mild cases may only become apparent after significant trauma, surgery, or tooth extraction, while severe cases can lead to spontaneous bleeding into joints and muscles, causing pain, swelling, and potential long-term damage. Hemophilia B primarily affects males, as it is an X-linked recessive disorder, but females can be carriers of the condition and may experience mild symptoms.

Factor X is a protein that is essential for blood clotting, also known as coagulation. It is an enzyme that plays a crucial role in the coagulation cascade, which is a series of chemical reactions that lead to the formation of a blood clot. Factor X is activated by one of two pathways: the intrinsic pathway, which is initiated by damage to the blood vessels, or the extrinsic pathway, which is triggered by the release of tissue factor from damaged cells. Once activated, Factor X converts prothrombin to thrombin, which then converts fibrinogen to fibrin to form a stable clot.

Inherited deficiencies in Factor X can lead to bleeding disorders, while increased levels of Factor X have been associated with an increased risk of thrombosis or blood clots. Therefore, maintaining appropriate levels of Factor X is important for the proper balance between bleeding and clotting in the body.

Thrombosis is the formation of a blood clot (thrombus) inside a blood vessel, obstructing the flow of blood through the circulatory system. When a clot forms in an artery, it can cut off the supply of oxygen and nutrients to the tissues served by that artery, leading to damage or tissue death. If a thrombus forms in the heart, it can cause a heart attack. If a thrombus breaks off and travels through the bloodstream, it can lodge in a smaller vessel, causing blockage and potentially leading to damage in the organ that the vessel supplies. This is known as an embolism.

Thrombosis can occur due to various factors such as injury to the blood vessel wall, abnormalities in blood flow, or changes in the composition of the blood. Certain medical conditions, medications, and lifestyle factors can increase the risk of thrombosis. Treatment typically involves anticoagulant or thrombolytic therapy to dissolve or prevent further growth of the clot, as well as addressing any underlying causes.

Thrombophlebitis is a medical condition characterized by the inflammation and clotting of blood in a vein, usually in the legs. The term thrombophlebitis comes from two words: "thrombo" which means blood clot, and "phlebitis" which refers to inflammation of the vein.

The condition can occur in superficial or deep veins. Superficial thrombophlebitis affects the veins just below the skin's surface, while deep vein thrombophlebitis (DVT) occurs in the deeper veins. DVT is a more serious condition as it can lead to complications such as pulmonary embolism if the blood clot breaks off and travels to the lungs.

Symptoms of thrombophlebitis may include redness, warmth, pain, swelling, or discomfort in the affected area. In some cases, there may be visible surface veins that are hard, tender, or ropy to touch. If left untreated, thrombophlebitis can lead to chronic venous insufficiency and other long-term complications. Treatment typically involves medications such as anticoagulants, antiplatelet agents, or thrombolytics, along with compression stockings and other supportive measures.

Heparin antagonists, also known as heparin neutralizers or reversal agents, are medications used to reverse the anticoagulant effects of heparin, a type of blood thinner. Heparin works by activating antithrombin III, which inactivates clotting factors IIa and Xa. Heparin antagonists, such as protamine sulfate, work by binding to heparin, forming a stable complex that is unable to bind to and activate antithrombin III, thereby neutralizing its anticoagulant effect.

Protamine sulfate is the most commonly used heparin antagonist. It is a highly basic protein derived from fish sperm that can neutralize the anticoagulant effects of heparin by forming a stable complex with it. The dose of protamine required to reverse the effects of heparin depends on the amount and type of heparin administered, as well as the timing of administration.

It is important to note that while heparin antagonists can reverse the anticoagulant effects of heparin, they do not reverse the underlying coagulation disorder or prevent further clot formation. Therefore, additional treatments may be necessary to manage the underlying condition and prevent recurrent thrombosis.

Coagulation protein disorders are a group of medical conditions that affect the body's ability to form blood clots properly. These disorders can be caused by genetic defects or acquired factors, such as liver disease or vitamin K deficiency.

The coagulation system is a complex process that involves various proteins called clotting factors. When there is an injury to a blood vessel, these clotting factors work together in a specific order to form a clot and prevent excessive bleeding. In coagulation protein disorders, one or more of these clotting factors are missing or not functioning properly, leading to abnormal bleeding or clotting.

There are several types of coagulation protein disorders, including:

1. Hemophilia: This is a genetic disorder that affects the clotting factor VIII or IX. People with hemophilia may experience prolonged bleeding after injuries, surgery, or dental work.
2. Von Willebrand disease: This is another genetic disorder that affects the von Willebrand factor, a protein that helps platelets stick together and form a clot. People with this condition may have nosebleeds, easy bruising, and excessive bleeding during menstruation or after surgery.
3. Factor XI deficiency: This is a rare genetic disorder that affects the clotting factor XI. People with this condition may experience prolonged bleeding after surgery or trauma.
4. Factor VII deficiency: This is a rare genetic disorder that affects the clotting factor VII. People with this condition may have nosebleeds, easy bruising, and excessive bleeding during menstruation or after surgery.
5. Acquired coagulation protein disorders: These are conditions that develop due to other medical factors, such as liver disease, vitamin K deficiency, or the use of certain medications. These disorders can affect one or more clotting factors and may cause abnormal bleeding or clotting.

Treatment for coagulation protein disorders depends on the specific condition and severity of symptoms. In some cases, replacement therapy with the missing clotting factor may be necessary to prevent excessive bleeding. Other treatments may include medications to control bleeding, such as desmopressin or antifibrinolytic agents, and lifestyle changes to reduce the risk of injury and bleeding.

Fibrinolytic agents are medications that dissolve or break down blood clots by activating plasminogen, which is converted into plasmin. Plasmin is a proteolytic enzyme that degrades fibrin, the structural protein in blood clots. Fibrinolytic agents are used medically to treat conditions such as acute ischemic stroke, deep vein thrombosis, pulmonary embolism, and myocardial infarction (heart attack) by restoring blood flow in occluded vessels. Examples of fibrinolytic agents include alteplase, reteplase, and tenecteplase. It is important to note that these medications carry a risk of bleeding complications and should be administered with caution.

In the context of medicine, plasma refers to the clear, yellowish fluid that is the liquid component of blood. It's composed of water, enzymes, hormones, antibodies, clotting factors, and other proteins. Plasma serves as a transport medium for cells, nutrients, waste products, gases, and other substances throughout the body. Additionally, it plays a crucial role in the immune response and helps regulate various bodily functions.

Plasma can be collected from blood donors and processed into various therapeutic products, such as clotting factors for people with hemophilia or immunoglobulins for patients with immune deficiencies. This process is called plasma fractionation.

Factor V, also known as proaccelerin or labile factor, is a protein involved in the coagulation cascade, which is a series of chemical reactions that leads to the formation of a blood clot. Factor V acts as a cofactor for the activation of Factor X to Factor Xa, which is a critical step in the coagulation cascade.

When blood vessels are damaged, the coagulation cascade is initiated to prevent excessive bleeding. During this process, Factor V is activated by thrombin, another protein involved in coagulation, and then forms a complex with activated Factor X and calcium ions on the surface of platelets or other cells. This complex converts prothrombin to thrombin, which then converts fibrinogen to fibrin to form a stable clot.

Deficiency or dysfunction of Factor V can lead to bleeding disorders such as hemophilia B or factor V deficiency, while mutations in the gene encoding Factor V can increase the risk of thrombosis, as seen in the Factor V Leiden mutation.

Fibrin(ogen) degradation products (FDPs) are a group of proteins that result from the breakdown of fibrinogen and fibrin, which are key components of blood clots. This process occurs during the normal physiological process of fibrinolysis, where clots are dissolved to maintain blood flow.

FDPs can be measured in the blood as a marker for the activation of the coagulation and fibrinolytic systems. Elevated levels of FDPs may indicate the presence of a disorder that causes abnormal clotting or bleeding, such as disseminated intravascular coagulation (DIC), deep vein thrombosis (DVT), pulmonary embolism (PE), or certain types of cancer.

It is important to note that FDPs are not specific to any particular disorder and their measurement should be interpreted in conjunction with other clinical and laboratory findings.

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.

Warfarin is a anticoagulant medication that works by inhibiting the vitamin K-dependent activation of several coagulation factors (factors II, VII, IX, and X). This results in prolonged clotting times and reduced thrombus formation. It is commonly used to prevent and treat blood clots in conditions such as atrial fibrillation, deep vein thrombosis, and pulmonary embolism. Warfarin is also known by its brand names Coumadin and Jantoven.

It's important to note that warfarin has a narrow therapeutic index, meaning that the difference between an effective dose and a toxic one is small. Therefore, it requires careful monitoring of the patient's coagulation status through regular blood tests (INR) to ensure that the dosage is appropriate and to minimize the risk of bleeding complications.

Prekallikrein is a zymogen, or inactive precursor, of the serine protease kallikrein. It is a protein that plays a role in the coagulation cascade and the kinin-kallikrein system. Prekallikrein is primarily produced in the liver and circulates in the bloodstream. When activated, prekallikrein is converted to kallikrein, which then participates in various physiological processes such as blood pressure regulation, inflammation, and fibrinolysis (the breakdown of blood clots). The activation of prekallikrein is facilitated by the surface of negatively charged activators like kininogen or collagen, in conjunction with factor XII (Hageman factor) in a positive feedback loop.

In summary, Prekallikrein is a crucial protein in the coagulation and kinin-kallikrein systems that becomes activated to kallikrein upon contact with negatively charged surfaces and factor XII, contributing to various physiological processes.

Fibrinopeptide A is a small protein molecule that is cleaved and released from the larger fibrinogen protein during the blood clotting process. Specifically, it is removed by the enzyme thrombin as part of the conversion of fibrinogen to fibrin, which is the main structural component of a blood clot. The measurement of Fibrinopeptide A in the blood can be used as a marker for ongoing thrombin activation and fibrin formation, which are key events in coagulation and hemostasis. Increased levels of Fibrinopeptide A may indicate abnormal or excessive blood clotting, such as in disseminated intravascular coagulation (DIC) or deep vein thrombosis (DVT).

Thromboembolism is a medical condition that refers to the obstruction of a blood vessel by a thrombus (blood clot) that has formed elsewhere in the body and then been transported by the bloodstream to a narrower vessel, where it becomes lodged. This process can occur in various parts of the body, leading to different types of thromboembolisms:

1. Deep Vein Thrombosis (DVT): A thrombus forms in the deep veins, usually in the legs or pelvis, and then breaks off and travels to the lungs, causing a pulmonary embolism.
2. Pulmonary Embolism (PE): A thrombus formed elsewhere, often in the deep veins of the legs, dislodges and travels to the lungs, blocking one or more pulmonary arteries. This can lead to shortness of breath, chest pain, and potentially life-threatening complications if not treated promptly.
3. Cerebral Embolism: A thrombus formed in another part of the body, such as the heart or carotid artery, dislodges and travels to the brain, causing a stroke or transient ischemic attack (TIA).
4. Arterial Thromboembolism: A thrombus forms in an artery and breaks off, traveling to another part of the body and blocking blood flow to an organ or tissue, leading to potential damage or loss of function. Examples include mesenteric ischemia (intestinal damage due to blocked blood flow) and retinal artery occlusion (vision loss due to blocked blood flow in the eye).

Prevention, early detection, and appropriate treatment are crucial for managing thromboembolism and reducing the risk of severe complications.

Ellagic acid is a type of polyphenol, which is a class of organic compounds characterized by the presence of multiple phenol units. It is found in various fruits and vegetables, including raspberries, strawberries, pomegranates, and walnuts. Ellagic acid has been studied for its potential antioxidant, anti-inflammatory, and chemopreventive properties. However, more research is needed to confirm these effects and establish a clear medical definition of ellagic acid. It is not considered a medication or a treatment for any specific medical condition.

Whole Blood Coagulation Time (WBCT) is not a standard term used in medical literature. However, I believe you may be referring to "bleeding time" or "coagulation time" which are tests used to evaluate the function of the blood's clotting system.

Bleeding time is a measure of how long it takes for bleeding to stop after a small cut is made in the skin. It helps assess the function of the platelets and the smaller blood vessels.

Coagulation time, on the other hand, measures the time it takes for a larger clot to form in whole blood. This test is not commonly used in clinical practice.

It's important to note that these tests have largely been replaced by more specific coagulation tests, such as prothrombin time (PT) and activated partial thromboplastin time (aPTT), which provide more detailed information about the different components of the clotting system.

A "Blood Cell Count" is a medical laboratory test that measures the number of red blood cells (RBCs), white blood cells (WBCs), and platelets in a sample of blood. This test is often used as a part of a routine check-up or to help diagnose various medical conditions, such as anemia, infection, inflammation, and many others.

The RBC count measures the number of oxygen-carrying cells in the blood, while the WBC count measures the number of immune cells that help fight infections. The platelet count measures the number of cells involved in clotting. Abnormal results in any of these counts may indicate an underlying medical condition and further testing may be required for diagnosis and treatment.

Fibrin is defined as a protein that is formed from fibrinogen during the clotting of blood. It plays an essential role in the formation of blood clots, also known as a clotting or coagulation cascade. When an injury occurs and bleeding starts, fibrin threads form a net-like structure that entraps platelets and red blood cells to create a stable clot, preventing further loss of blood.

The process of forming fibrin from fibrinogen is initiated by thrombin, another protein involved in the coagulation cascade. Thrombin cleaves fibrinogen into fibrin monomers, which then polymerize to form long strands of fibrin. These strands cross-link with each other through a process catalyzed by factor XIIIa, forming a stable clot that protects the wound and promotes healing.

It is important to note that abnormalities in fibrin formation or breakdown can lead to bleeding disorders or thrombotic conditions, respectively. Proper regulation of fibrin production and degradation is crucial for maintaining healthy hemostasis and preventing excessive clotting or bleeding.

Freeze-drying, also known as lyophilization, is a method of preservation that involves the removal of water from a frozen product by sublimation, which is the direct transition of a solid to a gas. This process allows for the preservation of the original shape and structure of the material while significantly extending its shelf life. In medical contexts, freeze-drying can be used for various purposes, including the long-term storage of pharmaceuticals, vaccines, and diagnostic samples. The process helps maintain the efficacy and integrity of these materials until they are ready to be reconstituted with water and used.

Factor X deficiency, also known as Stuart-Prower factor deficiency, is a rare bleeding disorder that affects the body's ability to form blood clots. It is caused by a mutation in the gene that provides instructions for making coagulation factor X, a protein involved in the coagulation cascade, which is a series of chemical reactions that lead to the formation of a blood clot.

People with factor X deficiency may experience excessive bleeding after injury or surgery, and they may also have an increased risk of spontaneous bleeding, such as nosebleeds, heavy menstrual periods, and joint bleeds. The severity of the condition can vary widely, from mild to severe, depending on the level of factor X activity in the blood.

Factor X deficiency can be inherited or acquired. Inherited forms of the disorder are caused by mutations in the F10 gene and are usually present at birth. Acquired forms of the disorder can develop later in life due to conditions such as liver disease, vitamin K deficiency, or the use of certain medications that interfere with coagulation.

Treatment for factor X deficiency typically involves replacement therapy with fresh frozen plasma or recombinant factor X concentrates to help restore normal clotting function. In some cases, other treatments such as antifibrinolytic agents or desmopressin may also be used to manage bleeding symptoms.

Factor XII deficiency, also known as Hageman factor deficiency, is a rare genetic disorder characterized by a lack or dysfunction of coagulation factor XII. This protein is involved in the initiation of the coagulation cascade, which leads to the formation of a blood clot. People with Factor XII deficiency may have an increased risk of bleeding, but it is typically mild and not life-threatening. The diagnosis is usually made through blood tests that measure the level and function of Factor XII. Treatment is generally not necessary unless there is significant bleeding, in which case fresh frozen plasma or cryoprecipitate may be given to provide temporary correction of the deficiency. It's important to note that Factor XII deficiency is not a common cause of bleeding disorders and it doesn't increase the risk of thrombosis.

Vitamin K deficiency is a condition that occurs when the body lacks adequate amounts of Vitamin K, a fat-soluble vitamin essential for blood clotting and bone metabolism. This can lead to an increased risk of excessive bleeding (hemorrhage) and calcification of tissues.

Vitamin K is required for the activation of several proteins involved in blood clotting, known as coagulation factors II, VII, IX, and X. A deficiency in Vitamin K can result in these factors remaining in their inactive forms, leading to impaired blood clotting and an increased risk of bleeding.

Vitamin K deficiency can occur due to several reasons, including malnutrition, malabsorption disorders (such as cystic fibrosis or celiac disease), liver diseases, use of certain medications (such as antibiotics or anticoagulants), and prolonged use of warfarin therapy.

In newborns, Vitamin K deficiency can lead to a serious bleeding disorder known as hemorrhagic disease of the newborn. This is because newborns have low levels of Vitamin K at birth, and their gut bacteria, which are responsible for producing Vitamin K, are not yet fully developed. Therefore, it is recommended that newborns receive a dose of Vitamin K within the first few days of life to prevent this condition.

Symptoms of Vitamin K deficiency can include easy bruising, nosebleeds, bleeding gums, blood in urine or stools, and excessive menstrual bleeding. In severe cases, it can lead to life-threatening hemorrhage. Treatment typically involves administering Vitamin K supplements or injections to replenish the body's levels of this essential nutrient.

Carotid artery thrombosis is a medical condition characterized by the formation of a blood clot (thrombus) inside the carotid artery, which is one of the major blood vessels that supplies oxygenated blood to the head and neck. This condition can lead to serious complications such as a stroke or transient ischemic attack (TIA), also known as a "mini-stroke," if the clot dislodges and travels to the brain, blocking the flow of blood and oxygen.

Carotid artery thrombosis can result from various factors, including atherosclerosis (the buildup of fats, cholesterol, and other substances in the artery walls), hypertension (high blood pressure), diabetes, smoking, and genetic predisposition. Symptoms may include neck pain or stiffness, weakness or numbness in the face or limbs, difficulty speaking or understanding speech, vision problems, and sudden severe headaches. Diagnosis typically involves imaging tests such as ultrasound, CT angiography, or MRI angiography. Treatment options may include anticoagulant or antiplatelet medications, endovascular procedures to remove the clot, or surgery to clean out the artery (carotid endarterectomy).

Kininogens are a group of proteins found in the blood plasma that play a crucial role in the inflammatory response and blood coagulation. They are precursors to bradykinin, a potent vasodilator and inflammatory mediator. There are two types of kininogens: high molecular weight kininogen (HMWK) and low molecular weight kininogen (LMWK). HMWK is involved in the intrinsic pathway of blood coagulation, while LMWK is responsible for the release of bradykinin. Both kininogens are important targets in the regulation of inflammation and hemostasis.

Platelet aggregation is the clumping together of platelets (thrombocytes) in the blood, which is an essential step in the process of hemostasis (the stopping of bleeding) after injury to a blood vessel. When the inner lining of a blood vessel is damaged, exposure of subendothelial collagen and tissue factor triggers platelet activation. Activated platelets change shape, become sticky, and release the contents of their granules, which include ADP (adenosine diphosphate).

ADP then acts as a chemical mediator to attract and bind additional platelets to the site of injury, leading to platelet aggregation. This forms a plug that seals the damaged vessel and prevents further blood loss. Platelet aggregation is also a crucial component in the formation of blood clots (thrombosis) within blood vessels, which can have pathological consequences such as heart attacks and strokes if they obstruct blood flow to vital organs.

Vitamin K is a fat-soluble vitamin that plays a crucial role in blood clotting and bone metabolism. It is essential for the production of several proteins involved in blood clotting, including factor II (prothrombin), factor VII, factor IX, and factor X. Additionally, Vitamin K is necessary for the synthesis of osteocalcin, a protein that contributes to bone health by regulating the deposition of calcium in bones.

There are two main forms of Vitamin K: Vitamin K1 (phylloquinone), which is found primarily in green leafy vegetables and some vegetable oils, and Vitamin K2 (menaquinones), which is produced by bacteria in the intestines and is also found in some fermented foods.

Vitamin K deficiency can lead to bleeding disorders such as hemorrhage and excessive bruising. While Vitamin K deficiency is rare in adults, it can occur in newborns who have not yet developed sufficient levels of the vitamin. Therefore, newborns are often given a Vitamin K injection shortly after birth to prevent bleeding problems.

I'm sorry for any confusion, but "solar activity" is not a term typically used in medical definitions. Solar activity refers to the various phenomena that occur on the Sun, including solar flares, coronal mass ejections (CMEs), and solar wind. These events involve the release of energy and charged particles from the Sun's atmosphere and can have effects on space weather and technological systems in near-Earth space. If you have any questions related to medical terminology or health-related topics, I would be happy to help with those!

Activated Protein C (APC) resistance is a condition in which the body's natural anticoagulant system is impaired, leading to an increased risk of thrombosis or blood clot formation. APC is an enzyme that plays a crucial role in regulating blood coagulation by inactivating clotting factors Va and VIIIa.

APC resistance is most commonly caused by a genetic mutation in the Factor V gene, known as Factor V Leiden. This mutation results in the production of a variant form of Factor V called Factor V Leiden, which is resistant to APC-mediated inactivation. As a result, the body's ability to regulate blood clotting is impaired, leading to an increased risk of thrombosis.

APC resistance can be measured by performing a functional assay that compares the activity of APC in normal plasma versus plasma from a patient with suspected APC resistance. The assay measures the rate of inactivation of Factor Va by APC, and a reduced rate of inactivation indicates APC resistance.

It is important to note that not all individuals with APC resistance will develop thrombosis, and other factors such as age, obesity, pregnancy, oral contraceptive use, and smoking can increase the risk of thrombosis in individuals with APC resistance.

Antiphospholipid syndrome (APS) is an autoimmune disorder characterized by the presence of antiphospholipid antibodies in the blood. These antibodies are directed against phospholipids, a type of fat molecule found in cell membranes and plasma lipoproteins. The presence of these antibodies can lead to abnormal blood clotting, which can cause serious complications such as stroke, heart attack, deep vein thrombosis, and pulmonary embolism.

APS can occur either on its own (primary APS) or in conjunction with other autoimmune disorders, such as systemic lupus erythematosus (secondary APS). The exact cause of APS is not fully understood, but it is believed to involve a combination of genetic and environmental factors.

Symptoms of APS can vary widely depending on the location and severity of the blood clots. They may include:

* Recurrent miscarriages or stillbirths
* Blood clots in the legs, lungs, or other parts of the body
* Skin ulcers or lesions
* Headaches, seizures, or stroke-like symptoms
* Kidney problems
* Heart valve abnormalities

Diagnosis of APS typically involves blood tests to detect the presence of antiphospholipid antibodies. Treatment may include medications to prevent blood clots, such as anticoagulants and antiplatelet agents, as well as management of any underlying autoimmune disorders.

4-Hydroxycoumarins are a type of chemical compound that contains a hydroxy group (-OH) attached to the 4th carbon atom of the coumarin structure. Coumarins themselves are aromatic organic compounds, characterized by a benzene ring fused to a pyrone ring.

4-Hydroxycoumarins have gained attention in medical research due to their potential biological activities. For instance, some 4-hydroxycoumarins exhibit anticoagulant properties and are used as oral anticoagulant drugs, such as warfarin. These compounds work by inhibiting the vitamin K epoxide reductase enzyme, thereby interfering with the blood clotting process.

Additionally, 4-hydroxycoumarins have been investigated for their potential anticancer, anti-inflammatory, and antibacterial activities. However, more research is needed to fully understand their therapeutic potential and safety profiles.

Factor VIIa is a protein involved in the coagulation cascade, which is a series of chemical reactions that leads to the formation of a blood clot. Factor VIIa is the activated form of factor VII, which is normally activated by tissue factor (TF) when there is damage to the blood vessels. Together, TF and Factor VIIa convert Factor X to its active form, Factor Xa, which then converts prothrombin to thrombin, leading to the formation of a fibrin clot.

In summary, Factor VIIa is an important protein in the coagulation cascade that helps to initiate the formation of a blood clot in response to injury.

Drug monitoring, also known as therapeutic drug monitoring (TDM), is a medical practice that involves testing blood or other bodily fluids to determine the concentration of a particular medication. This information is used to ensure that the patient is receiving an appropriate dosage and to help guide adjustments in medication therapy. It can be especially important for medications with a narrow therapeutic index, meaning that there is a small range between the effective dose and a toxic dose.

The goal of drug monitoring is to optimize medication effectiveness while minimizing potential side effects. This may involve measuring the concentration of a drug at various times after dosing to determine how quickly it is being metabolized or eliminated from the body, as well as to assess compliance with the prescribed treatment regimen.

Drug monitoring can be performed using a variety of methods, including immunoassays, chromatography, and mass spectrometry. The specific method used will depend on the drug being monitored and the level of sensitivity required. Results from drug monitoring tests are typically interpreted in conjunction with other clinical information, such as the patient's age, weight, renal function, liver function, and overall health status.

Factor XIa is a serine protease enzyme that plays a crucial role in blood coagulation. It is formed through the activation of Factor XI, which is one of the key components in the intrinsic pathway of the coagulation cascade. The activation of Factor XI to Factor XIa occurs via either autoactivation or through the action of thrombin. Once activated, Factor XIa can cleave and activate Factor IX, leading to the formation of Factor IXa, which further amplifies the coagulation cascade.

In summary, Factor XIa is a vital enzyme in the blood coagulation process, contributing to the formation of a stable fibrin clot that helps prevent excessive bleeding during injury or trauma.

Factor XIIa is a protease enzyme that plays a role in the coagulation cascade, which is the series of events that leads to blood clotting. It is formed when Factor XII, also known as Hageman factor, is activated by contact with negatively charged surfaces such as damaged endothelial cells or artificial surfaces like medical devices.

Once activated, Factor XIIa can activate other components of the coagulation cascade, including Factor XI, which ultimately leads to the formation of a fibrin clot. While Factor XIIa is an important part of the coagulation system, it is not essential for normal hemostasis (the process that stops bleeding) in humans, as people with deficiencies in Factor XII do not have an increased risk of bleeding. However, excessive activation of Factor XIIa has been implicated in several pathological conditions, including thrombosis and inflammation.

Postoperative hemorrhage is a medical term that refers to bleeding that occurs after a surgical procedure. This condition can range from minor oozing to severe, life-threatening bleeding. Postoperative hemorrhage can occur soon after surgery or even several days later, as the surgical site begins to heal.

The causes of postoperative hemorrhage can vary, but some common factors include:

1. Inadequate hemostasis during surgery: This means that all bleeding was not properly controlled during the procedure, leading to bleeding after surgery.
2. Blood vessel injury: During surgery, blood vessels may be accidentally cut or damaged, causing bleeding after the procedure.
3. Coagulopathy: This is a condition in which the body has difficulty forming blood clots, increasing the risk of postoperative hemorrhage.
4. Use of anticoagulant medications: Medications that prevent blood clots can increase the risk of bleeding after surgery.
5. Infection: An infection at the surgical site can cause inflammation and bleeding.

Symptoms of postoperative hemorrhage may include swelling, pain, warmth, or discoloration around the surgical site, as well as signs of shock such as rapid heartbeat, low blood pressure, and confusion. Treatment for postoperative hemorrhage depends on the severity of the bleeding and may include medications to control bleeding, transfusions of blood products, or additional surgery to stop the bleeding.

Kallikreins are a group of serine proteases, which are enzymes that help to break down other proteins. They are found in various tissues and body fluids, including the pancreas, kidneys, and saliva. In the body, kallikreins play important roles in several physiological processes, such as blood pressure regulation, inflammation, and fibrinolysis (the breakdown of blood clots).

There are two main types of kallikreins: tissue kallikreins and plasma kallikreins. Tissue kallikreins are primarily involved in the activation of kininogen, a protein that leads to the production of bradykinin, a potent vasodilator that helps regulate blood pressure. Plasma kallikreins, on the other hand, play a key role in the coagulation cascade by activating factors XI and XII, which ultimately lead to the formation of a blood clot.

Abnormal levels or activity of kallikreins have been implicated in various diseases, including cancer, cardiovascular disease, and inflammatory disorders. For example, some studies suggest that certain tissue kallikreins may promote tumor growth and metastasis, while others indicate that they may have protective effects against cancer. Plasma kallikreins have also been linked to the development of thrombosis (blood clots) and inflammation in cardiovascular disease.

Overall, kallikreins are important enzymes with diverse functions in the body, and their dysregulation has been associated with various pathological conditions.

Coumarins are a class of organic compounds that occur naturally in certain plants, such as sweet clover and tonka beans. They have a characteristic aroma and are often used as fragrances in perfumes and flavorings in food products. In addition to their use in consumer goods, coumarins also have important medical applications.

One of the most well-known coumarins is warfarin, which is a commonly prescribed anticoagulant medication used to prevent blood clots from forming or growing larger. Warfarin works by inhibiting the activity of vitamin K-dependent clotting factors in the liver, which helps to prolong the time it takes for blood to clot.

Other medical uses of coumarins include their use as anti-inflammatory agents and antimicrobial agents. Some coumarins have also been shown to have potential cancer-fighting properties, although more research is needed in this area.

It's important to note that while coumarins have many medical uses, they can also be toxic in high doses. Therefore, it's essential to use them only under the guidance of a healthcare professional.

Chromogenic compounds are substances that can be converted into a colored product through a chemical reaction. These compounds are often used in various diagnostic tests, including microbiological assays and immunoassays, to detect the presence or absence of a specific analyte (such as a particular bacterium, enzyme, or antigen).

In these tests, a chromogenic substrate is added to the sample, and if the target analyte is present, it will react with the substrate and produce a colored product. The intensity of the color can often be correlated with the amount of analyte present in the sample, allowing for quantitative analysis.

Chromogenic compounds are widely used in clinical laboratories because they offer several advantages over other types of diagnostic tests. They are typically easy to use and interpret, and they can provide rapid results with high sensitivity and specificity. Additionally, chromogenic assays can be automated, which can help increase throughput and reduce the potential for human error.

Protein S is a vitamin K-dependent protein found in the blood that functions as a natural anticoagulant. It plays a crucial role in regulating the body's clotting system by inhibiting the activation of coagulation factors, thereby preventing excessive blood clotting. Protein S also acts as a cofactor for activated protein C, which is another important anticoagulant protein.

Protein S exists in two forms: free and bound to a protein called C4b-binding protein (C4BP). Only the free form of Protein S has biological activity in inhibiting coagulation. Inherited or acquired deficiencies in Protein S can lead to an increased risk of thrombosis, or abnormal blood clot formation, which can cause various medical conditions such as deep vein thrombosis (DVT) and pulmonary embolism (PE). Regular monitoring of Protein S levels is essential for patients with a history of thrombotic events or those who have a family history of thrombophilia.

In the context of medicine and medical devices, calibration refers to the process of checking, adjusting, or confirming the accuracy of a measurement instrument or system. This is typically done by comparing the measurements taken by the device being calibrated to those taken by a reference standard of known accuracy. The goal of calibration is to ensure that the medical device is providing accurate and reliable measurements, which is critical for making proper diagnoses and delivering effective treatment. Regular calibration is an important part of quality assurance and helps to maintain the overall performance and safety of medical devices.

Heparinoids are a group of substances that have similar properties to heparin, a highly sulfated glycosaminoglycan found in mast cells and basophils. Heparin is a powerful anticoagulant that works by accelerating the action of an enzyme called antithrombin III, which inhibits the formation of blood clots.

Heparinoids are often used as alternative anticoagulants to heparin in clinical settings. They have similar mechanisms of action and can also inhibit the coagulation cascade, preventing the formation of blood clots. However, heparinoids have a lower anticoagulant activity than heparin and may have different side effect profiles.

Examples of heparinoids include low molecular weight heparins (LMWHs), fondaparinux, and danaparoid. LMWHs are derived from standard heparin by chemical or enzymatic depolymerization and have a lower molecular weight than heparin. They have a more predictable anticoagulant response and longer half-life than standard heparin, making them useful for outpatient treatment of deep vein thrombosis and pulmonary embolism.

Fondaparinux is a synthetic pentasaccharide that selectively binds to antithrombin III and enhances its inhibitory activity against factor Xa, a key enzyme in the coagulation cascade. It has a long half-life and predictable pharmacokinetics, making it useful for the prevention and treatment of venous thromboembolism.

Danaparoid is a mixture of heparan sulfate, dermatan sulfate, and chondroitin sulfate derived from pig intestinal mucosa. It has a lower anticoagulant activity than heparin but a longer half-life and less frequent dosing requirements. Danaparoid is used for the prevention and treatment of venous thromboembolism, as well as for the management of heparin-induced thrombocytopenia (HIT), a rare but serious complication of heparin therapy.

Beta-alanine is a non-essential amino acid, which means that it is not required in the diet because the body can produce it from other amino acids. It is produced in the liver and is also found in some foods such as meat, poultry, and fish.

Beta-alanine plays a role in the production of carnosine, a dipeptide molecule that helps to regulate muscle pH and improve muscle function during high-intensity exercise. When muscles contract during intense exercise, they produce hydrogen ions, which can cause the muscle pH to decrease (become more acidic), leading to fatigue and reduced muscle function. Carnosine acts as a buffer against this acidity, helping to maintain optimal muscle pH levels and improve performance during high-intensity exercise.

Beta-alanine supplements have been shown to increase carnosine levels in muscles, which may lead to improved athletic performance, particularly in activities that require short bursts of intense effort, such as weightlifting or sprinting. However, more research is needed to fully understand the effects and potential benefits of beta-alanine supplementation.

It's important to note that while beta-alanine supplements are generally considered safe for most people, they can cause a tingling sensation in the skin (paresthesia) when taken in high doses. This is a harmless side effect and typically subsides within an hour or so of taking the supplement.

Thrombophilia is a medical condition characterized by an increased tendency to form blood clots (thrombi) due to various genetic or acquired abnormalities in the coagulation system. These abnormalities can lead to a hypercoagulable state, which can cause thrombosis in both veins and arteries. Commonly identified thrombophilias include factor V Leiden mutation, prothrombin G20210A mutation, antithrombin deficiency, protein C deficiency, and protein S deficiency.

Acquired thrombophilias can be caused by various factors such as antiphospholipid antibody syndrome (APS), malignancies, pregnancy, oral contraceptive use, hormone replacement therapy, and certain medical conditions like inflammatory bowel disease or nephrotic syndrome.

It is essential to diagnose thrombophilia accurately, as it may influence the management of venous thromboembolism (VTE) events and guide decisions regarding prophylactic anticoagulation in high-risk situations.

Surgical hemostasis refers to the methods and techniques used during surgical procedures to stop bleeding or prevent hemorrhage. This can be achieved through various means, including the use of surgical instruments such as clamps, ligatures, or staples to physically compress blood vessels and stop the flow of blood. Electrosurgical tools like cautery may also be used to coagulate and seal off bleeding vessels using heat. Additionally, topical hemostatic agents can be applied to promote clotting and control bleeding in wounded tissues. Effective surgical hemostasis is crucial for ensuring a successful surgical outcome and minimizing the risk of complications such as excessive blood loss, infection, or delayed healing.

Blood platelets, also known as thrombocytes, are small, colorless cell fragments in our blood that play an essential role in normal blood clotting. They are formed in the bone marrow from large cells called megakaryocytes and circulate in the blood in an inactive state until they are needed to help stop bleeding. When a blood vessel is damaged, platelets become activated and change shape, releasing chemicals that attract more platelets to the site of injury. These activated platelets then stick together to form a plug, or clot, that seals the wound and prevents further blood loss. In addition to their role in clotting, platelets also help to promote healing by releasing growth factors that stimulate the growth of new tissue.

Platelet function tests are laboratory tests that measure how well platelets, which are small blood cells responsible for clotting, function in preventing or stopping bleeding. These tests are often used to investigate the cause of abnormal bleeding or bruising, or to monitor the effectiveness of antiplatelet therapy in patients with certain medical conditions such as heart disease or stroke.

There are several types of platelet function tests available, including:

1. Platelet count: This test measures the number of platelets present in a sample of blood. A low platelet count can increase the risk of bleeding.
2. Bleeding time: This test measures how long it takes for a small cut to stop bleeding. It is used less frequently than other tests due to its invasiveness and variability.
3. Platelet aggregation tests: These tests measure how well platelets clump together (aggregate) in response to various agents that promote platelet activation, such as adenosine diphosphate (ADP), collagen, or epinephrine.
4. Platelet function analyzer (PFA): This test measures the time it takes for a blood sample to clot under shear stress, simulating the conditions in an injured blood vessel. The PFA can provide information about the overall platelet function and the effectiveness of antiplatelet therapy.
5. Thromboelastography (TEG) or rotational thromboelastometry (ROTEM): These tests measure the kinetics of clot formation, strength, and dissolution in whole blood samples. They provide information about both platelet function and coagulation factors.

These tests can help healthcare providers diagnose bleeding disorders, assess the risk of bleeding during surgery or other invasive procedures, monitor antiplatelet therapy, and guide treatment decisions for patients with abnormal platelet function.

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.

Hemodilution is a medical term that refers to the reduction in the concentration of certain components in the blood, usually referring to red blood cells (RBCs) or hemoglobin. This occurs when an individual's plasma volume expands due to the infusion of intravenous fluids or the body's own production of fluid, such as during severe infection or inflammation. As a result, the number of RBCs per unit of blood decreases, leading to a lower hematocrit and hemoglobin level. It is important to note that while hemodilution reduces the concentration of RBCs in the blood, it does not necessarily indicate anemia or blood loss.

Thrombocytopenia is a medical condition characterized by an abnormally low platelet count (thrombocytes) in the blood. Platelets are small cell fragments that play a crucial role in blood clotting, helping to stop bleeding when a blood vessel is damaged. A healthy adult typically has a platelet count between 150,000 and 450,000 platelets per microliter of blood. Thrombocytopenia is usually diagnosed when the platelet count falls below 150,000 platelets/µL.

Thrombocytopenia can be classified into three main categories based on its underlying cause:

1. Immune thrombocytopenia (ITP): An autoimmune disorder where the immune system mistakenly attacks and destroys its own platelets, leading to a decreased platelet count. ITP can be further divided into primary or secondary forms, depending on whether it occurs alone or as a result of another medical condition or medication.
2. Decreased production: Thrombocytopenia can occur when there is insufficient production of platelets in the bone marrow due to various causes, such as viral infections, chemotherapy, radiation therapy, leukemia, aplastic anemia, or vitamin B12 or folate deficiency.
3. Increased destruction or consumption: Thrombocytopenia can also result from increased platelet destruction or consumption due to conditions like disseminated intravascular coagulation (DIC), thrombotic thrombocytopenic purpura (TTP), hemolytic uremic syndrome (HUS), or severe bacterial infections.

Symptoms of thrombocytopenia may include easy bruising, prolonged bleeding from cuts, spontaneous nosebleeds, bleeding gums, blood in urine or stools, and skin rashes like petechiae (small red or purple spots) or purpura (larger patches). The severity of symptoms can vary depending on the degree of thrombocytopenia and the presence of any underlying conditions. Treatment for thrombocytopenia depends on the cause and may include medications, transfusions, or addressing the underlying condition.

Hematologic tests, also known as hematology tests, are a group of diagnostic exams that evaluate the health and function of different components of blood, such as red and white blood cells, platelets, and clotting factors. These tests can detect various disorders, including anemia, infection, bleeding problems, and several types of cancer. Common hematologic tests include complete blood count (CBC), coagulation studies, peripheral smear examination, and erythrocyte sedimentation rate (ESR). The specific test or combination of tests ordered will depend on the patient's symptoms, medical history, and physical examination findings.

Low-molecular-weight heparin (LMWH) is a type of heparin used as an anticoagulant, which refers to a group of medications that prevent the formation of blood clots. Heparin is a naturally occurring substance in the body, and low-molecular-weight heparins are obtained through the depolymerization of standard heparin.

LMWH has a lower molecular weight than standard heparin, which results in several pharmacological differences. LMWHs have a more predictable dose response, longer half-life, and higher bioavailability when administered subcutaneously compared to standard heparin. They also exhibit greater anti-factor Xa activity relative to their antithrombin (anti-IIa) activity, which contributes to their anticoagulant effects.

LMWHs are used for the prevention and treatment of deep vein thrombosis (DVT), pulmonary embolism (PE), and other thromboembolic disorders. Common LMWHs include enoxaparin, dalteparin, tinzaparin, and nadroparin.

It is essential to monitor the patient's kidney function when using LMWH since they are primarily cleared by the kidneys. In patients with renal impairment, dose adjustments or alternative anticoagulants may be necessary to reduce the risk of bleeding complications.

Blood specimen collection is the process of obtaining a sample of blood from a patient for laboratory testing and analysis. This procedure is performed by trained healthcare professionals, such as nurses or phlebotomists, using sterile equipment to minimize the risk of infection and ensure accurate test results. The collected blood sample may be used to diagnose and monitor various medical conditions, assess overall health and organ function, and check for the presence of drugs, alcohol, or other substances. Proper handling, storage, and transportation of the specimen are crucial to maintain its integrity and prevent contamination.

A contusion is a medical term for a bruise. It's a type of injury that occurs when blood vessels become damaged or broken as a result of trauma to the body. This trauma can be caused by a variety of things, such as a fall, a blow, or a hit. When the blood vessels are damaged, blood leaks into the surrounding tissues, causing the area to become discolored and swollen.

Contusions can occur anywhere on the body, but they are most common in areas that are more likely to be injured, such as the knees, elbows, and hands. In some cases, a contusion may be accompanied by other injuries, such as fractures or sprains.

Most contusions will heal on their own within a few days or weeks, depending on the severity of the injury. Treatment typically involves rest, ice, compression, and elevation (RICE) to help reduce swelling and pain. In some cases, over-the-counter pain medications may also be recommended to help manage discomfort.

If you suspect that you have a contusion, it's important to seek medical attention if the injury is severe or if you experience symptoms such as difficulty breathing, chest pain, or loss of consciousness. These could be signs of a more serious injury and require immediate medical attention.

Hydroxyethyl starch derivatives are modified starches that are used as plasma expanders in medicine. They are created by chemically treating corn, potato, or wheat starch with hydroxylethyl groups, which makes the starch more soluble and less likely to be broken down by enzymes in the body. This results in a large molecule that can remain in the bloodstream for an extended period, increasing intravascular volume and improving circulation.

These derivatives are available in different molecular weights and substitution patterns, which affect their pharmacokinetics and pharmacodynamics. They are used to treat or prevent hypovolemia (low blood volume) due to various causes such as bleeding, burns, or dehydration. Common brand names include Hetastarch, Pentastarch, and Voluven.

It's important to note that the use of hydroxyethyl starch derivatives has been associated with adverse effects, including kidney injury, coagulopathy, and pruritus (severe itching). Therefore, their use should be carefully monitored and restricted to specific clinical situations.

Enoxaparin is a low molecular weight heparin (LMWH) medication that is used as an anticoagulant to prevent and treat blood clots. It works by binding to and inhibiting the activity of factor Xa, a clotting factor in the blood. This helps to reduce the risk of clot formation and can help to prevent conditions such as deep vein thrombosis (DVT) and pulmonary embolism (PE). Enoxaparin is typically given by injection under the skin (subcutaneously) and is available under the brand names Lovenox and Clexane, among others. It is important to follow the instructions of a healthcare professional when using enoxaparin, as it can increase the risk of bleeding.

I'm sorry for any confusion, but seaweed is not typically referred to in medical definitions. Seaweed is a common name for various marine macroalgae, which are multicellular aquatic plants found in the ocean. They are often consumed as food and have been used in traditional medicine in some cultures. However, there is no widely accepted medical definition for seaweed. If you're looking for information about a specific compound or substance derived from seaweed that might be relevant to medical definitions, I would be happy to help if you could provide more details.

Phaeophyta is a taxonomic division that refers to a group of complex, multicellular brown algae found in marine environments. These algae are characterized by their pigmentation, which includes fucoxanthin, chlorophyll-a, and chlorophyll-c, giving them a brown color. They have diverse morphology, ranging from simple thread-like forms to large seaweeds.

Phaeophyta species are primarily found in cold, nutrient-rich waters and play an essential role in marine ecosystems as primary producers and habitats for various marine organisms. Some examples of Phaeophyta include kelps, rockweed, and bladderwrack. It's worth noting that the classification and nomenclature of algae are continually evolving, so different sources might use slightly different terminology or categorization.

Antifibrinolytic agents are a class of medications that inhibit the breakdown of blood clots. They work by blocking the action of enzymes called plasminogen activators, which convert plasminogen to plasmin, the main enzyme responsible for breaking down fibrin, a protein that forms the framework of a blood clot.

By preventing the conversion of plasminogen to plasmin, antifibrinolytic agents help to stabilize existing blood clots and prevent their premature dissolution. These medications are often used in clinical settings where excessive bleeding is a concern, such as during or after surgery, childbirth, or trauma.

Examples of antifibrinolytic agents include tranexamic acid, aminocaproic acid, and epsilon-aminocaproic acid. While these medications can be effective in reducing bleeding, they also carry the risk of thromboembolic events, such as deep vein thrombosis or pulmonary embolism, due to their pro-coagulant effects. Therefore, they should be used with caution and only under the close supervision of a healthcare provider.

Hemostatic techniques refer to various methods used in medicine to stop bleeding or hemorrhage. The goal of these techniques is to promote the body's natural clotting process and prevent excessive blood loss. Some common hemostatic techniques include:

1. Mechanical compression: Applying pressure directly to the wound to physically compress blood vessels and stop the flow of blood. This can be done manually or with the use of medical devices such as clamps, tourniquets, or compression bandages.
2. Suturing or stapling: Closing a wound with stitches or staples to bring the edges of the wound together and allow the body's natural clotting process to occur.
3. Electrocautery: Using heat generated by an electrical current to seal off blood vessels and stop bleeding.
4. Hemostatic agents: Applying topical substances that promote clotting, such as fibrin glue, collagen, or gelatin sponges, to the wound site.
5. Vascular embolization: Inserting a catheter into a blood vessel and injecting a substance that blocks the flow of blood to a specific area, such as a bleeding tumor or aneurysm.
6. Surgical ligation: Tying off a bleeding blood vessel with suture material during surgery.
7. Arterial or venous repair: Repairing damaged blood vessels through surgical intervention to restore normal blood flow and prevent further bleeding.

A dose-response relationship in the context of drugs refers to the changes in the effects or symptoms that occur as the dose of a drug is increased or decreased. Generally, as the dose of a drug is increased, the severity or intensity of its effects also increases. Conversely, as the dose is decreased, the effects of the drug become less severe or may disappear altogether.

The dose-response relationship is an important concept in pharmacology and toxicology because it helps to establish the safe and effective dosage range for a drug. By understanding how changes in the dose of a drug affect its therapeutic and adverse effects, healthcare providers can optimize treatment plans for their patients while minimizing the risk of harm.

The dose-response relationship is typically depicted as a curve that shows the relationship between the dose of a drug and its effect. The shape of the curve may vary depending on the drug and the specific effect being measured. Some drugs may have a steep dose-response curve, meaning that small changes in the dose can result in large differences in the effect. Other drugs may have a more gradual dose-response curve, where larger changes in the dose are needed to produce significant effects.

In addition to helping establish safe and effective dosages, the dose-response relationship is also used to evaluate the potential therapeutic benefits and risks of new drugs during clinical trials. By systematically testing different doses of a drug in controlled studies, researchers can identify the optimal dosage range for the drug and assess its safety and efficacy.

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.

Anticardiolipin antibodies are a type of autoantibody that targets and binds to cardiolipin, a phospholipid component found in the inner mitochondrial membrane of cells. These antibodies are clinically significant because they have been associated with a variety of autoimmune disorders, including antiphospholipid syndrome (APS).

APS is a condition characterized by recurrent blood clots, pregnancy losses, and thrombocytopenia (low platelet count). Anticardiolipin antibodies are one of the three main types of autoantibodies found in APS, along with lupus anticoagulant and anti-β2 glycoprotein I antibodies.

The presence of high levels of anticardiolipin antibodies in the blood can lead to abnormal blood clotting, which can cause serious complications such as deep vein thrombosis, pulmonary embolism, and stroke. Anticardiolipin antibodies can also contribute to pregnancy losses by causing placental insufficiency or abnormal blood clotting in the placenta.

Anticardiolipin antibodies are typically detected through a blood test that measures their levels in the serum. A positive result is usually confirmed with a second test performed at least 12 weeks later to establish persistence. Treatment for anticardiolipin antibody-related disorders typically involves anticoagulation therapy to prevent blood clots and other complications.

Factor IXa is a protein that plays a crucial role in the coagulation cascade, which is a series of biochemical reactions involved in blood clotting. It is an activated form of Factor IX, which is one of the coagulation factors that help convert prothrombin to thrombin, leading to the formation of a fibrin clot and stopping bleeding at the site of injury.

Factor IXa works by activating Factor X in the presence of calcium ions, phospholipids, and Factor VIIIa, which is another activated coagulation factor. This complex is called the tenase complex. The activation of Factor X leads to the formation of thrombin, which then converts fibrinogen to fibrin, forming a stable clot.

Deficiencies or dysfunctions in Factor IXa can lead to bleeding disorders such as hemophilia B, also known as Christmas disease, which is characterized by prolonged bleeding times and spontaneous bleeding episodes.

I'm sorry for any confusion, but the term "Sea Cucumbers" is not typically used in medical definitions. It is a common name given to marine animals belonging to the class Holothuroidea in the phylum Echinodermata. These are sausage-shaped, bottom-dwelling creatures found on the sea floor worldwide. They have a leathery skin and a set of tube feet used for locomotion. While they have some cultural and commercial importance in parts of the world, they do not have direct relevance to medical definitions.

Afibrinogenemia is a rare genetic disorder characterized by the complete absence or severely decreased levels of fibrinogen, a protein involved in blood clotting. This condition leads to an increased risk of excessive bleeding due to the inability to form proper blood clots. It is caused by mutations in the genes that provide instructions for making the three chains (Aα, Bβ, and γ) that make up the fibrinogen protein. Inheritance is autosomal recessive, meaning an individual must inherit two copies of the defective gene, one from each parent, to have the condition.

Point-of-care (POC) systems refer to medical diagnostic tests or tools that are performed at or near the site where a patient receives care, such as in a doctor's office, clinic, or hospital room. These systems provide rapid and convenient results, allowing healthcare professionals to make immediate decisions regarding diagnosis, treatment, and management of a patient's condition.

POC systems can include various types of diagnostic tests, such as:

1. Lateral flow assays (LFAs): These are paper-based devices that use capillary action to detect the presence or absence of a target analyte in a sample. Examples include pregnancy tests and rapid strep throat tests.
2. Portable analyzers: These are compact devices used for measuring various parameters, such as blood glucose levels, coagulation status, or electrolytes, using small volumes of samples.
3. Imaging systems: Handheld ultrasound machines and portable X-ray devices fall under this category, providing real-time imaging at the point of care.
4. Monitoring devices: These include continuous glucose monitors, pulse oximeters, and blood pressure cuffs that provide real-time data to help manage patient conditions.

POC systems offer several advantages, such as reduced turnaround time for test results, decreased need for sample transportation, and increased patient satisfaction due to faster decision-making and treatment initiation. However, it is essential to ensure the accuracy and reliability of these tests by following proper testing procedures and interpreting results correctly.

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 believe there might be a misunderstanding in your question. "Dogs" is not a medical term or condition. It is the common name for a domesticated carnivore of the family Canidae, specifically the genus Canis, which includes wolves, foxes, and other extant and extinct species of mammals. Dogs are often kept as pets and companions, and they have been bred in a wide variety of forms and sizes for different purposes, such as hunting, herding, guarding, assisting police and military forces, and providing companionship and emotional support.

If you meant to ask about a specific medical condition or term related to dogs, please provide more context so I can give you an accurate answer.

Dermatan sulfate is a type of glycosaminoglycan, which is a long, unbranched sugar chain found on the proteoglycan core protein in the extracellular matrix of animal tissues. It is composed of repeating disaccharide units of iduronic acid and N-acetylgalactosamine, with alternating sulfation at the 4-position of the iduronic acid and the 6-position of the galactosamine.

Dermatan sulfate is found in various tissues, including skin, heart valves, and blood vessels, where it plays important roles in regulating cell behavior, tissue development, and homeostasis. It also binds to a variety of growth factors, cytokines, and enzymes, modulating their activities and contributing to the regulation of various biological processes.

Abnormalities in dermatan sulfate metabolism can lead to several genetic disorders, such as Hunter syndrome and Hurler-Scheie syndrome, which are characterized by skeletal abnormalities, cardiac defects, and neurological impairment.

Antiphospholipid antibodies are a type of autoantibody that targets and binds to certain proteins found in the blood that attach to phospholipids (a type of fat molecule). These antibodies are associated with an increased risk of developing antiphospholipid syndrome, a disorder characterized by abnormal blood clotting.

There are several types of antiphospholipid antibodies, including:

1. Lupus anticoagulant: This type of antiphospholipid antibody can interfere with blood clotting tests and may increase the risk of thrombosis (blood clots) in both arteries and veins.
2. Anticardiolipin antibodies: These antibodies target a specific phospholipid called cardiolipin, which is found in the inner membrane of mitochondria. High levels of anticardiolipin antibodies are associated with an increased risk of thrombosis and pregnancy complications such as recurrent miscarriage.
3. Anti-β2 glycoprotein I antibodies: These antibodies target a protein called β2 glycoprotein I, which binds to negatively charged phospholipids on the surface of cells. High levels of anti-β2 glycoprotein I antibodies are associated with an increased risk of thrombosis and pregnancy complications.

The exact mechanism by which antiphospholipid antibodies cause blood clotting is not fully understood, but it is thought to involve the activation of platelets, the inhibition of natural anticoagulants, and the promotion of inflammation. Antiphospholipid syndrome can be treated with medications that thin the blood or prevent clots from forming, such as aspirin, warfarin, or heparin.

Factor VIIIa is a protein that plays a crucial role in the coagulation cascade, which is the series of biochemical reactions involved in blood clotting. Specifically, Factor VIIIa is an activated form of Factor VIII, which is one of the essential clotting factors required for normal hemostasis (the process that stops bleeding).

Factor VIIIa functions as a cofactor for another protein called Factor IXa, and together they form the "tenase complex." This complex activates Factor X to Factor Xa, which ultimately leads to the formation of a fibrin clot.

Deficiencies or dysfunctions in Factor VIII or Factor VIIIa can result in bleeding disorders such as hemophilia A, a genetic condition characterized by prolonged bleeding and spontaneous hemorrhages.

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.

There is no medical definition for "dog diseases" as it is too broad a term. However, dogs can suffer from various health conditions and illnesses that are specific to their species or similar to those found in humans. Some common categories of dog diseases include:

1. Infectious Diseases: These are caused by viruses, bacteria, fungi, or parasites. Examples include distemper, parvovirus, kennel cough, Lyme disease, and heartworms.
2. Hereditary/Genetic Disorders: Some dogs may inherit certain genetic disorders from their parents. Examples include hip dysplasia, elbow dysplasia, progressive retinal atrophy (PRA), and degenerative myelopathy.
3. Age-Related Diseases: As dogs age, they become more susceptible to various health issues. Common age-related diseases in dogs include arthritis, dental disease, cancer, and cognitive dysfunction syndrome (CDS).
4. Nutritional Disorders: Malnutrition or improper feeding can lead to various health problems in dogs. Examples include obesity, malnutrition, and vitamin deficiencies.
5. Environmental Diseases: These are caused by exposure to environmental factors such as toxins, allergens, or extreme temperatures. Examples include heatstroke, frostbite, and toxicities from ingesting harmful substances.
6. Neurological Disorders: Dogs can suffer from various neurological conditions that affect their nervous system. Examples include epilepsy, intervertebral disc disease (IVDD), and vestibular disease.
7. Behavioral Disorders: Some dogs may develop behavioral issues due to various factors such as anxiety, fear, or aggression. Examples include separation anxiety, noise phobias, and resource guarding.

It's important to note that regular veterinary care, proper nutrition, exercise, and preventative measures can help reduce the risk of many dog diseases.

Hemostatics are substances or agents that promote bleeding cessation or prevent the spread of bleeding. They can act in various ways, such as by stimulating the body's natural clotting mechanisms, constricting blood vessels to reduce blood flow, or forming a physical barrier to block the bleeding site.

Hemostatics are often used in medical settings to manage wounds, injuries, and surgical procedures. They can be applied directly to the wound as a powder, paste, or gauze, or they can be administered systemically through intravenous injection. Examples of hemostatic agents include fibrin sealants, collagen-based products, thrombin, and oxidized regenerated cellulose.

It's important to note that while hemostatics can be effective in controlling bleeding, they should be used with caution and only under the guidance of a healthcare professional. Inappropriate use or overuse of hemostatic agents can lead to complications such as excessive clotting, thrombosis, or tissue damage.

Serine proteinase inhibitors, also known as serine protease inhibitors or serpins, are a group of proteins that inhibit serine proteases, which are enzymes that cut other proteins in a process called proteolysis. Serine proteinases are important in many biological processes such as blood coagulation, fibrinolysis, inflammation and cell death. The inhibition of these enzymes by serpin proteins is an essential regulatory mechanism to maintain the balance and prevent uncontrolled proteolytic activity that can lead to diseases.

Serpins work by forming a covalent complex with their target serine proteinases, irreversibly inactivating them. The active site of serpins contains a reactive center loop (RCL) that mimics the protease's target protein sequence and acts as a bait for the enzyme. When the protease cleaves the RCL, it gets trapped within the serpin structure, leading to its inactivation.

Serpin proteinase inhibitors play crucial roles in various physiological processes, including:

1. Blood coagulation and fibrinolysis regulation: Serpins such as antithrombin, heparin cofactor II, and protease nexin-2 control the activity of enzymes involved in blood clotting and dissolution to prevent excessive or insufficient clot formation.
2. Inflammation modulation: Serpins like α1-antitrypsin, α2-macroglobulin, and C1 inhibitor regulate the activity of proteases released during inflammation, protecting tissues from damage.
3. Cell death regulation: Some serpins, such as PI-9/SERPINB9, control apoptosis (programmed cell death) by inhibiting granzyme B, a protease involved in this process.
4. Embryonic development and tissue remodeling: Serpins like plasminogen activator inhibitor-1 (PAI-1) and PAI-2 regulate the activity of enzymes involved in extracellular matrix degradation during embryonic development and tissue remodeling.
5. Neuroprotection: Serpins such as neuroserpin protect neurons from damage by inhibiting proteases released during neuroinflammation or neurodegenerative diseases.

Dysregulation of serpins has been implicated in various pathological conditions, including thrombosis, emphysema, Alzheimer's disease, and cancer. Understanding the roles of serpins in these processes may provide insights into potential therapeutic strategies for treating these diseases.

Aprotinin is a medication that belongs to a class of drugs called serine protease inhibitors. It works by inhibiting the activity of certain enzymes in the body that can cause tissue damage and bleeding. Aprotinin is used in medical procedures such as heart bypass surgery to reduce blood loss and the need for blood transfusions. It is administered intravenously and its use is typically stopped a few days after the surgical procedure.

Aprotinin was first approved for use in the United States in 1993, but its use has been restricted or withdrawn in many countries due to concerns about its safety. In 2006, a study found an increased risk of kidney damage and death associated with the use of aprotinin during heart bypass surgery, leading to its withdrawal from the market in Europe and Canada. However, it is still available for use in the United States under a restricted access program.

It's important to note that the use of aprotinin should be carefully considered and discussed with the healthcare provider, taking into account the potential benefits and risks of the medication.

Oral administration is a route of giving medications or other substances by mouth. This can be in the form of tablets, capsules, liquids, pastes, or other forms that can be swallowed. Once ingested, the substance is absorbed through the gastrointestinal tract and enters the bloodstream to reach its intended target site in the body. Oral administration is a common and convenient route of medication delivery, but it may not be appropriate for all substances or in certain situations, such as when rapid onset of action is required or when the patient has difficulty swallowing.

Von Willebrand factor (vWF) is a large multimeric glycoprotein that plays a crucial role in hemostasis, the process which leads to the cessation of bleeding and the formation of a blood clot. It was named after Erik Adolf von Willebrand, a Finnish physician who first described the disorder associated with its deficiency, known as von Willebrand disease (vWD).

The primary functions of vWF include:

1. Platelet adhesion and aggregation: vWF mediates the initial attachment of platelets to damaged blood vessel walls by binding to exposed collagen fibers and then interacting with glycoprotein Ib (GPIb) receptors on the surface of platelets, facilitating platelet adhesion. Subsequently, vWF also promotes platelet-platelet interactions (aggregation) through its interaction with platelet glycoprotein IIb/IIIa (GPIIb/IIIa) receptors under high shear stress conditions found in areas of turbulent blood flow, such as arterioles and the capillary bed.

2. Transport and stabilization of coagulation factor VIII: vWF serves as a carrier protein for coagulation factor VIII (FVIII), protecting it from proteolytic degradation and maintaining its stability in circulation. This interaction between vWF and FVIII is essential for the proper functioning of the coagulation cascade, particularly in the context of vWD, where impaired FVIII function can lead to bleeding disorders.

3. Wound healing: vWF contributes to wound healing by promoting platelet adhesion and aggregation at the site of injury, which facilitates the formation of a provisional fibrin-based clot that serves as a scaffold for tissue repair and regeneration.

In summary, von Willebrand factor is a vital hemostatic protein involved in platelet adhesion, aggregation, coagulation factor VIII stabilization, and wound healing. Deficiencies or dysfunctions in vWF can lead to bleeding disorders such as von Willebrand disease.

Venous Thromboembolism (VTE) is a medical condition that includes both deep vein thrombosis (DVT) and pulmonary embolism (PE). DVT is a blood clot that forms in the deep veins, usually in the legs, while PE occurs when a clot breaks off and travels to the lungs, blocking a pulmonary artery or one of its branches. This condition can be life-threatening if not diagnosed and treated promptly.

The medical definition of Venous Thromboembolism is:

"The formation of a blood clot (thrombus) in a deep vein, most commonly in the legs, which can then dislodge and travel to the lungs, causing a potentially life-threatening blockage of the pulmonary artery or one of its branches (pulmonary embolism). VTE is a complex disorder resulting from an interplay of genetic and environmental factors that affect the balance between thrombosis and fibrinolysis."

Some common risk factors for VTE include immobility, surgery, trauma, cancer, hormonal therapy, pregnancy, advanced age, and inherited or acquired thrombophilia. Symptoms of DVT may include swelling, pain, warmth, and redness in the affected limb, while symptoms of PE can range from shortness of breath and chest pain to coughing up blood or even sudden death. Diagnosis typically involves a combination of clinical assessment, imaging studies (such as ultrasound, CT scan, or MRI), and laboratory tests (such as D-dimer). Treatment usually includes anticoagulation therapy to prevent further clot formation and reduce the risk of recurrence.

Intravenous (IV) infusion is a medical procedure in which liquids, such as medications, nutrients, or fluids, are delivered directly into a patient's vein through a needle or a catheter. This route of administration allows for rapid absorption and distribution of the infused substance throughout the body. IV infusions can be used for various purposes, including resuscitation, hydration, nutrition support, medication delivery, and blood product transfusion. The rate and volume of the infusion are carefully controlled to ensure patient safety and efficacy of treatment.

A blood transfusion is a medical procedure in which blood or its components are transferred from one individual (donor) to another (recipient) through a vein. The donated blood can be fresh whole blood, packed red blood cells, platelets, plasma, or cryoprecipitate, depending on the recipient's needs. Blood transfusions are performed to replace lost blood due to severe bleeding, treat anemia, support patients undergoing major surgeries, or manage various medical conditions such as hemophilia, thalassemia, and leukemia. The donated blood must be carefully cross-matched with the recipient's blood type to minimize the risk of transfusion reactions.

Endotoxins are toxic substances that are associated with the cell walls of certain types of bacteria. They are released when the bacterial cells die or divide, and can cause a variety of harmful effects in humans and animals. Endotoxins are made up of lipopolysaccharides (LPS), which are complex molecules consisting of a lipid and a polysaccharide component.

Endotoxins are particularly associated with gram-negative bacteria, which have a distinctive cell wall structure that includes an outer membrane containing LPS. These toxins can cause fever, inflammation, and other symptoms when they enter the bloodstream or other tissues of the body. They are also known to play a role in the development of sepsis, a potentially life-threatening condition characterized by a severe immune response to infection.

Endotoxins are resistant to heat, acid, and many disinfectants, making them difficult to eliminate from contaminated environments. They can also be found in a variety of settings, including hospitals, industrial facilities, and agricultural operations, where they can pose a risk to human health.

Cardiolipins are a type of phospholipid that are primarily found in the inner mitochondrial membrane of cells. They play a crucial role in several important cellular processes, including energy production, apoptosis (programmed cell death), and maintenance of the structural integrity of the mitochondria.

Cardiolipins are unique because they contain four fatty acid chains, whereas most other phospholipids contain only two. This gives cardiolipins a distinctive conical shape that is important for their function in maintaining the curvature and stability of the inner mitochondrial membrane.

Cardiolipins have also been implicated in various diseases, including neurodegenerative disorders, cancer, and bacterial infections. For example, changes in cardiolipin composition or distribution have been linked to mitochondrial dysfunction in Parkinson's disease and other neurological conditions. Additionally, certain bacteria, such as Neisseria gonorrhoeae and Chlamydia trachomatis, can manipulate host cell cardiolipins to facilitate their own survival and replication.

In summary, cardiolipins are essential phospholipids found in the inner mitochondrial membrane that play a critical role in several cellular processes, and have been implicated in various diseases.

Beta 2-glycoprotein I, also known as apolipoprotein H, is a plasma protein that belongs to the family of proteins called immunoglobulin-binding proteins. It has a molecular weight of approximately 44 kDa and is composed of five domains with similar structures.

Beta 2-glycoprotein I is primarily produced in the liver and circulates in the bloodstream, where it plays a role in several physiological processes, including coagulation, complement activation, and lipid metabolism. It has been identified as an autoantigen in certain autoimmune disorders, such as antiphospholipid syndrome (APS), where autoantibodies against beta 2-glycoprotein I can cause blood clots, miscarriages, and other complications.

In medical terminology, the definition of "beta 2-glycoprotein I" is as follows:

A plasma protein that belongs to the family of immunoglobulin-binding proteins and has a molecular weight of approximately 44 kDa. It is primarily produced in the liver and circulates in the bloodstream, where it plays a role in several physiological processes, including coagulation, complement activation, and lipid metabolism. Autoantibodies against beta 2-glycoprotein I are associated with certain autoimmune disorders, such as antiphospholipid syndrome (APS), where they can cause blood clots, miscarriages, and other complications.

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.

Prospective studies, also known as longitudinal studies, are a type of cohort study in which data is collected forward in time, following a group of individuals who share a common characteristic or exposure over a period of time. The researchers clearly define the study population and exposure of interest at the beginning of the study and follow up with the participants to determine the outcomes that develop over time. This type of study design allows for the investigation of causal relationships between exposures and outcomes, as well as the identification of risk factors and the estimation of disease incidence rates. Prospective studies are particularly useful in epidemiology and medical research when studying diseases with long latency periods or rare outcomes.

Venous thrombosis is a medical condition characterized by the formation of a blood clot (thrombus) in the deep veins, often in the legs (deep vein thrombosis or DVT), but it can also occur in other parts of the body such as the arms, pelvis, or lungs (pulmonary embolism).

The formation of a venous thrombus can be caused by various factors, including injury to the blood vessel wall, changes in blood flow, and alterations in the composition of the blood. These factors can lead to the activation of clotting factors and platelets, which can result in the formation of a clot that blocks the vein.

Symptoms of venous thrombosis may include swelling, pain, warmth, and redness in the affected area. In some cases, the clot can dislodge and travel to other parts of the body, causing potentially life-threatening complications such as pulmonary embolism.

Risk factors for venous thrombosis include advanced age, obesity, smoking, pregnancy, use of hormonal contraceptives or hormone replacement therapy, cancer, recent surgery or trauma, prolonged immobility, and a history of previous venous thromboembolism. Treatment typically involves the use of anticoagulant medications to prevent further clotting and dissolve existing clots.

Factor V, also known as proaccelerin or labile factor, is a protein involved in the coagulation cascade, which is a series of chemical reactions that leads to the formation of a blood clot. Factor V acts as a cofactor for the conversion of prothrombin to thrombin, which is a critical step in the coagulation process.

Inherited deficiencies or abnormalities in Factor V can lead to bleeding disorders. For example, Factor V Leiden is a genetic mutation that causes an increased risk of blood clots, while Factor V deficiency can cause a bleeding disorder.

It's worth noting that "Factor Va" is not a standard medical term. Factor V becomes activated and turns into Factor Va during the coagulation cascade. Therefore, it is possible that you are looking for the definition of "Factor Va" in the context of its role as an activated form of Factor V in the coagulation process.

Phospholipids are a major class of lipids that consist of a hydrophilic (water-attracting) head and two hydrophobic (water-repelling) tails. The head is composed of a phosphate group, which is often bound to an organic molecule such as choline, ethanolamine, serine or inositol. The tails are made up of two fatty acid chains.

Phospholipids are a key component of cell membranes and play a crucial role in maintaining the structural integrity and function of the cell. They form a lipid bilayer, with the hydrophilic heads facing outwards and the hydrophobic tails facing inwards, creating a barrier that separates the interior of the cell from the outside environment.

Phospholipids are also involved in various cellular processes such as signal transduction, intracellular trafficking, and protein function regulation. Additionally, they serve as emulsifiers in the digestive system, helping to break down fats in the diet.

Monocytes are a type of white blood cell that are part of the immune system. They are large cells with a round or oval shape and a nucleus that is typically indented or horseshoe-shaped. Monocytes are produced in the bone marrow and then circulate in the bloodstream, where they can differentiate into other types of immune cells such as macrophages and dendritic cells.

Monocytes play an important role in the body's defense against infection and tissue damage. They are able to engulf and digest foreign particles, microorganisms, and dead or damaged cells, which helps to clear them from the body. Monocytes also produce cytokines, which are signaling molecules that help to coordinate the immune response.

Elevated levels of monocytes in the bloodstream can be a sign of an ongoing infection, inflammation, or other medical conditions such as cancer or autoimmune disorders.

Cardiopulmonary bypass (CPB) is a medical procedure that temporarily takes over the functions of the heart and lungs during major heart surgery. It allows the surgeon to operate on a still, bloodless heart.

During CPB, the patient's blood is circulated outside the body with the help of a heart-lung machine. The machine pumps the blood through a oxygenator, where it is oxygenated and then returned to the body. This bypasses the heart and lungs, hence the name "cardiopulmonary bypass."

CPB involves several components, including a pump, oxygenator, heat exchanger, and tubing. The patient's blood is drained from the heart through cannulas (tubes) and passed through the oxygenator, where it is oxygenated and carbon dioxide is removed. The oxygenated blood is then warmed to body temperature in a heat exchanger before being pumped back into the body.

While on CPB, the patient's heart is stopped with the help of cardioplegia solution, which is infused directly into the coronary arteries. This helps to protect the heart muscle during surgery. The surgeon can then operate on a still and bloodless heart, allowing for more precise surgical repair.

After the surgery is complete, the patient is gradually weaned off CPB, and the heart is restarted with the help of electrical stimulation or medication. The patient's condition is closely monitored during this time to ensure that their heart and lungs are functioning properly.

While CPB has revolutionized heart surgery and allowed for more complex procedures to be performed, it is not without risks. These include bleeding, infection, stroke, kidney damage, and inflammation. However, with advances in technology and technique, the risks associated with CPB have been significantly reduced over time.

Cyclosporins are a group of cyclic undecapeptides that have immunosuppressive properties. The most well-known and widely used cyclosporin is cyclosporine A, which is commonly used in organ transplantation to prevent rejection. It works by inhibiting the activation of T-cells, a type of white blood cell that plays a central role in the immune response. By suppressing the activity of T-cells, cyclosporine A reduces the risk of an immune response against the transplanted organ.

Cyclosporins are also used in the treatment of autoimmune diseases, such as rheumatoid arthritis and psoriasis, where they help to reduce inflammation and prevent damage to tissues. Like all immunosuppressive drugs, cyclosporins can increase the risk of infection and cancer, so they must be used with caution and under close medical supervision.

Peptide hydrolases, also known as proteases or peptidases, are a group of enzymes that catalyze the hydrolysis of peptide bonds in proteins and peptides. They play a crucial role in various biological processes such as protein degradation, digestion, cell signaling, and regulation of various physiological functions. Based on their catalytic mechanism and the specificity for the peptide bond, they are classified into several types, including serine proteases, cysteine proteases, aspartic proteases, and metalloproteases. These enzymes have important clinical applications in the diagnosis and treatment of various diseases, such as cancer, viral infections, and inflammatory disorders.

Reference values, also known as reference ranges or reference intervals, are the set of values that are considered normal or typical for a particular population or group of people. These values are often used in laboratory tests to help interpret test results and determine whether a patient's value falls within the expected range.

The process of establishing reference values typically involves measuring a particular biomarker or parameter in a large, healthy population and then calculating the mean and standard deviation of the measurements. Based on these statistics, a range is established that includes a certain percentage of the population (often 95%) and excludes extreme outliers.

It's important to note that reference values can vary depending on factors such as age, sex, race, and other demographic characteristics. Therefore, it's essential to use reference values that are specific to the relevant population when interpreting laboratory test results. Additionally, reference values may change over time due to advances in measurement technology or changes in the population being studied.

Protamines are small, arginine-rich proteins that are found in the sperm cells of many organisms. They play a crucial role in the process of sperm maturation, also known as spermiogenesis. During this process, the DNA in the sperm cell is tightly packed and compacted by the protamines, which helps to protect the genetic material during its journey to fertilize an egg.

Protamines are typically composed of around 50-100 amino acids and have a high proportion of positively charged arginine residues, which allow them to interact strongly with the negatively charged DNA molecule. This interaction results in the formation of highly condensed chromatin structures that are resistant to enzymatic digestion and other forms of damage.

In addition to their role in sperm maturation, protamines have also been studied for their potential use in drug delivery and gene therapy applications. Their ability to bind strongly to DNA makes them attractive candidates for delivering drugs or genetic material directly to the nucleus of a cell. However, more research is needed to fully understand the potential benefits and risks associated with these applications.

Tissue Plasminogen Activator (tPA) is a thrombolytic enzyme, which means it dissolves blood clots. It is naturally produced by the endothelial cells that line the interior surface of blood vessels. tPA activates plasminogen, a zymogen, to convert it into plasmin, a protease that breaks down fibrin, the structural protein in blood clots. This enzyme is used medically as a thrombolytic drug under various brand names, such as Activase and Alteplase, to treat conditions like acute ischemic stroke, pulmonary embolism, and deep vein thrombosis by dissolving the clots and restoring blood flow.

Reference standards in a medical context refer to the established and widely accepted norms or benchmarks used to compare, evaluate, or measure the performance, accuracy, or effectiveness of diagnostic tests, treatments, or procedures. These standards are often based on extensive research, clinical trials, and expert consensus, and they help ensure that healthcare practices meet certain quality and safety thresholds.

For example, in laboratory medicine, reference standards may consist of well-characterized samples with known concentrations of analytes (such as chemicals or biological markers) that are used to calibrate instruments and validate testing methods. In clinical practice, reference standards may take the form of evidence-based guidelines or best practices that define appropriate care for specific conditions or patient populations.

By adhering to these reference standards, healthcare professionals can help minimize variability in test results, reduce errors, improve diagnostic accuracy, and ensure that patients receive consistent, high-quality care.

Tuberculin is not a medical condition but a diagnostic tool used in the form of a purified protein derivative (PPD) to detect tuberculosis infection. It is prepared from the culture filtrate of Mycobacterium tuberculosis, the bacterium that causes TB. The PPD tuberculin is injected intradermally, and the resulting skin reaction is measured after 48-72 hours to determine if a person has developed an immune response to the bacteria, indicating a past or present infection with TB. It's important to note that a positive tuberculin test does not necessarily mean that active disease is present, but it does indicate that further evaluation is needed.

Benzimidazoles are a class of heterocyclic compounds containing a benzene fused to a imidazole ring. They have a wide range of pharmacological activities and are used in the treatment of various diseases. Some of the benzimidazoles are used as antiparasitics, such as albendazole and mebendazole, which are effective against a variety of worm infestations. Other benzimidazoles have antifungal properties, such as thiabendazole and fuberidazole, and are used to treat fungal infections. Additionally, some benzimidazoles have been found to have anti-cancer properties and are being investigated for their potential use in cancer therapy.

"Papio" is a term used in the field of primatology, specifically for a genus of Old World monkeys known as baboons. It's not typically used in human or medical contexts. Baboons are large monkeys with robust bodies and distinctive dog-like faces. They are native to various parts of Africa and are known for their complex social structures and behaviors.

The Injury Severity Score (ISS) is a medical scoring system used to assess the severity of trauma in patients with multiple injuries. It's based on the Abbreviated Injury Scale (AIS), which classifies each injury by body region on a scale from 1 (minor) to 6 (maximum severity).

The ISS is calculated by summing the squares of the highest AIS score in each of the three most severely injured body regions. The possible ISS ranges from 0 to 75, with higher scores indicating more severe injuries. An ISS over 15 is generally considered a significant injury, and an ISS over 25 is associated with a high risk of mortality. It's important to note that the ISS has limitations, as it doesn't consider the number or type of injuries within each body region, only the most severe one.

A peptide fragment is a short chain of amino acids that is derived from a larger peptide or protein through various biological or chemical processes. These fragments can result from the natural breakdown of proteins in the body during regular physiological processes, such as digestion, or they can be produced experimentally in a laboratory setting for research or therapeutic purposes.

Peptide fragments are often used in research to map the structure and function of larger peptides and proteins, as well as to study their interactions with other molecules. In some cases, peptide fragments may also have biological activity of their own and can be developed into drugs or diagnostic tools. For example, certain peptide fragments derived from hormones or neurotransmitters may bind to receptors in the body and mimic or block the effects of the full-length molecule.

Surgical blood loss is the amount of blood that is lost during a surgical procedure. It can occur through various routes such as incisions, punctures or during the removal of organs or tissues. The amount of blood loss can vary widely depending on the type and complexity of the surgery being performed.

Surgical blood loss can be classified into three categories:

1. Insensible losses: These are small amounts of blood that are lost through the skin, respiratory tract, or gastrointestinal tract during surgery. They are not usually significant enough to cause any clinical effects.
2. Visible losses: These are larger amounts of blood that can be seen and measured directly during surgery. They may require transfusion or other interventions to prevent hypovolemia (low blood volume) and its complications.
3. Hidden losses: These are internal bleeding that cannot be easily seen or measured during surgery. They can occur in the abdominal cavity, retroperitoneal space, or other areas of the body. They may require further exploration or imaging studies to diagnose and manage.

Surgical blood loss can lead to several complications such as hypovolemia, anemia, coagulopathy (disorders of blood clotting), and organ dysfunction. Therefore, it is essential to monitor and manage surgical blood loss effectively to ensure optimal patient outcomes.

It was not until much later that the subcomponents of thromboplastin and partial thromboplastin were identified. Thromboplastin ... Thromboplastin is found in brain, lung, and other tissues and especially in blood platelets. Thromboplastin is sometimes used ... a derivative could be created called partial thromboplastin. Partial thromboplastin was used to measure the intrinsic pathway. ... Thromboplastin (TPL) is derived from cell membranes and is a mixture of both phospholipids and tissue factor, neither of which ...
The partial thromboplastin time (PTT), also known as the activated partial thromboplastin time (aPTT or APTT), is a blood test ... Partial thromboplastin time is typically analyzed by a medical technologist or a laboratory technician on an automated ... This is the reason why the color of the Vacutainer tube top is Carolina blue.[citation needed] Thromboplastin "KCCT - General ... The blood is mixed, then centrifuged to separate blood cells from plasma (as partial thromboplastin time is most commonly ...
... thromboplastin); decay accelerating factor (CD55); protectin (CD59, inhibitor of MAC) and complement regulatory membrane ...
Blood tests: Prothrombin time Partial thromboplastin time "hemostasis". Merriam-Webster Dictionary. Retrieved 2016-01-21. " ...
Specifically Activated Partial Thromboplastin Time (aptt) is prolonged. The diagnosis is confirmed by an assay detecting very ...
Prolonged prothrombin and activated partial thromboplastin times are typical. Urinalysis can show bilirubinuria, proteinuria, ...
It was not until much later that the subcomponents of thromboplastin and partial thromboplastin were identified. Thromboplastin ... Thromboplastin defines the cascade that leads to the activation of factor X-the tissue factor pathway. In doing so, it has ... "Entrez Gene: F3 coagulation factor III (thromboplastin, tissue factor)". Guo W, Wang H, Zhao W, Zhu J, Ju B, Wang X (January ... When manipulated in the laboratory, a derivative could be created called partial thromboplastin, which was used to measure the ...
Surface contact and thromboplastin formation (PhD Thesis, University of Utrecht) (1958). Blood, Garden City, N.Y. : Published ...
... thromboplastin, creatine, and creatine kinase.[citation needed] Crush syndrome can directly come from compartment syndrome, if ...
Partial thromboplastin time should not be confused with prothrombin time, or PT, which measures blood clotting time through a ... Monitoring of the activated partial thromboplastin time is also not required and does not reflect the anticoagulant effect, as ... These include activated partial thromboplastin time (APTT) and antifactor Xa activity. The specimen of choice is usually fresh ... The effects of heparin are measured in the lab by the partial thromboplastin time (aPTT), one of the measures of the time it ...
"Prothrombin Time (PT) w/INR and Partial Thromboplastin Time (PTT) Blood Test". Walk-In Lab. Retrieved 2018-09-17. "Hemorrhagic ... Prothrombin time and partial thromboplastin time blood tests are useful to investigate the reason behind the excessive bleeding ... thromboplastin) to help restore them and to improve the immune defense of the patient after excessive blood loss. Blood ...
The prothrombin time (PT) and partial thromboplastin time (PTT) is often prolonged. Subclinical horses may only show elevated ...
Plasma prekallikrein deficiency causes a prolonged activated partial thromboplastin time in patients. Kallikrein and ...
Muftic MK (1958). Prevention of Hemorrhages in E. N. T. Surgery by Interstitial Application of Thromboplastin. AMA Arch ...
... does not usually affect prothrombin time, partial thromboplastin time or platelet counts; it does not inhibit ...
Prothrombin time, activated partial thromboplastin time, thrombin time, and fibrinogen tests should be performed. Platelet ...
The encoded protein may function as an anticoagulant that indirectly inhibits the thromboplastin-specific complex. ...
... partial thromboplastin time. Imaging tests such as transient elastography, ultrasound and magnetic resonance imaging can be ...
Typical are normal thrombin time, prolonged prothrombin time (PT) and prolonged partial thromboplastin time(PTT). FX antigen ...
KCT is similar to the activated partial thromboplastin time test, except it does not use exogenous phospholipid. Thus, a ... Dilute Russell's viper venom time Partial thromboplastin time Activated clotting time Gronowski, Ann M. (2004). Handbook of ...
At this stage, it was known that thrombokinase/thromboplastin (factor III) is released by damaged tissues, reacting with ... An alternative name for the factor is plasma thromboplastin component, given by an independent group in California. Hageman ... and can be measured by the activated partial thromboplastin time (aPTT) test.[citation needed] The tissue factor (extrinsic) ... or clotting was initiated by thromboplastin (a mix of tissue factor and phospholipids), the extrinsic pathway.[citation needed ...
The partial thromboplastin test was also developed, as now used in hospital laboratories around the world. The team also ...
This is characterised by a raised activated partial thromboplastin time (aPTT), and subsides over 24 hours. It resolves quickly ...
Bleeding time, activated partial thromboplastin time, prothrombin time, and euglobulin lysis time were within normal limits. ...
Sometimes in penetrating injuries, the brain releases thromboplastin, which can lead to problems with blood clotting. While ...
Impaired clotting (coagulopathy) is common, and can be diagnosed with an elevated activated partial thromboplastin time (aPTT ...
... (also known as plasma thromboplastin antecedent (PTA) deficiency or Rosenthal syndrome) is a mild form of ... The prolongation of the activated partial thromboplastin time should completely correct with a 1:1 mixing study with normal ... The diagnosis of haemophilia C (factor XI deficiency) is centered on prolonged activated partial thromboplastin time (aPTT). ...
D-dimer Partial thromboplastin time (PTT), or activated partial thromboplastin time (aPTT or APTT) Thrombin time (TT) ... Variations between various thromboplastin preparations have in the past led to decreased accuracy of INR readings, and a 2005 ... A multicentre calibration study of WHO international reference preparations for thromboplastin, rabbit (RBT/90) and human (rTF/ ... PT is often used in conjunction with the activated partial thromboplastin time (aPTT) which measures the intrinsic pathway and ...
... activated partial thromboplastin time-APTT, prothrombin time with International Normalized Ratio-PTINR, thrombin time-TT, and ... with von Willebrand disease typically display a normal prothrombin time and a variable prolongation of partial thromboplastin ...
These tests include prothrombin time (PT/INR), activated partial thromboplastin time (aPTT), albumin, bilirubin (direct and ...
It was not until much later that the subcomponents of thromboplastin and partial thromboplastin were identified. Thromboplastin ... Thromboplastin is found in brain, lung, and other tissues and especially in blood platelets. Thromboplastin is sometimes used ... a derivative could be created called partial thromboplastin. Partial thromboplastin was used to measure the intrinsic pathway. ... Thromboplastin (TPL) is derived from cell membranes and is a mixture of both phospholipids and tissue factor, neither of which ...
Partial thromboplastin time (PTT) is a blood test that looks at how long it takes for blood to clot. It can help tell if you ... Partial thromboplastin time (PTT) is a blood test that looks at how long it takes for blood to clot. It can help tell if you ...
... is a blood test that looks at how long it takes for blood to clot. It can help tell if you ... Partial thromboplastin time (PTT) is a blood test that looks at how long it takes for blood to clot. It can help tell if you ... APTT; PTT; Activated partial thromboplastin time. How the Test is Performed. A blood sample. is needed. If you are taking any ...
A partial thromboplastin time (PTT) test is used to evaluate bloods ability to clot. It may be done as part of an evaluation ... What Is a Partial Thromboplastin Time Test?. A partial thromboplastin time (PTT) test measures how long it takes for a clot to ...
... is a blood test that looks at how long it takes for blood to clot. It can help tell if you ... Partial thromboplastin time (PTT) is a blood test that looks at how long it takes for blood to clot. It can help tell if you ... APTT; PTT; Activated partial thromboplastin time. How the Test is Performed. A blood sample. is needed. If you are taking any ... Activated partial thromboplastin substitution test - diagnostic. In: Chernecky CC, Berger BJ, eds. Laboratory Tests and ...
... preparations and risks involved with activated partial thromboplastin time test. ... Activated Partial Thromboplastin Time Test (APTT). This is a blood test to measure the kind of time blood takes to clot. ... The activated partial thromboplastin time level test can be done to check if substances known as inhibitors are affecting the ... Activated partial thromboplastin time range is generally used to check if the person has bleeding problems. ...
Anti-Xa concentration better than activated partial thromboplastin time for the monitoring of unfractionated heparin treatment. ...
2023 - The Calgary Guide to Understanding Disease ...
Tag: activated Partial Thromboplastin Time. Anticoagulation Hypercoagulable State Stroke Neurology Antiphospholipid antibodies ...
Activated Partial Thromboplastin Time (APTT) Test. This test measures how long it takes for blood to clot. It measures the ...
APTT is responsible for measuring common and intrinsic pathway of coagulation cascade. A prolonged APT may be caused by anticoagulants like heparin or factor deficiencies or inhibitors such as lupus anticoagulants ...
... and activated partial thromboplastin time (aPTT) are used to test for the same functions; however, in aPTT, an activator is ... Partial thromboplastin time (PTT) and activated partial thromboplastin time (aPTT) are used to test for the same functions; ... Partial thromboplastin time (PTT) and activated partial thromboplastin time (aPTT) are used to test for the same functions; ... encoded search term (Partial Thromboplastin Time%2C Activated) and Partial Thromboplastin Time, Activated What to Read Next on ...
... and activated partial thromboplastin time (aPTT) are used to test for the same functions; however, in aPTT, an activator is ... Partial thromboplastin time (PTT) and activated partial thromboplastin time (aPTT) are used to test for the same functions; ... Partial thromboplastin time (PTT) and activated partial thromboplastin time (aPTT) are used to test for the same functions; ... encoded search term (Partial Thromboplastin Time%2C Activated) and Partial Thromboplastin Time, Activated What to Read Next on ...
Plasma fibrinogen levels were assayed by tissue thromboplastin. 2. When the tissue damage, the release of thromboplastin to ... 3. Objective To approach the problem of activated partial thromboplastin t ... 1) Plasma fibrinogen levels were assayed by tissue thromboplastin.. (2) When the tissue damage, the release of thromboplastin ... 18) Objective The aim of this study were to evaluate the value of activated partial thromboplastin time(APTT) in monitoring low ...
Book Activated Partial Thromboplastin Time (APTT) Test in Arrha with NABL-accredited Redcliffe Labs. One-stop destination for ... Activated Partial Thromboplastin Time(APTT) Test in Arrha. The activated partial thromboplastin time (APTT) test measures the ...
... thromboplastin) pronunciation, how to pronounce thrombozyme (= thromboplastin), click to play the pronunciation audio of ...
... s list of labs providing Activated Partial Thromboplastin Test services in Bangalore & book Activated Partial Thromboplastin ... Want to book affordable Activated Partial Thromboplastin Test online? Check out Flebo.in ... Activated Partial Thromboplastin Test In Bangalore. () Starts from 500* The activated partial thromboplastin test or APTT test ... About Activated Partial Thromboplastin Test. Why is the Activated Partial Thromboplastin test done? ...
A Haut-Doubs FVII variant depending on species-derived-thromboplastin reagent ( F7 :p.Arg337His). ... A Haut-Doubs FVII variant depending on species-derived-thromboplastin reagent ( F7 :p.Arg337His). Haemophilia, 2014, 20 (4), pp ...
Activated partial thromboplastin time (aPTT). * Renal function with serum blood urea nitrogen (BUN) and creatinine levels ...
Partial thromboplastin time. ND. ND. 38.6. 30. ND. ND. ND. ND. ND. ND. ND. ND. ND. ...
... and partial thromboplastin time, were confirmed; viscoelastic measurements showed an elevated maximum amplitude and low lysis ...
Genetic associations for activated partial thromboplastin time and prothrombin time, their gene expression profiles, and risk ...
Partial thromboplastin time (PTT).. Imaging studies, such as ultrasound or computed tomography (CT) scan, may also be ...
Activated partial thromboplastin time. ATRP:. Atom transfer radical polymerization. CysNO:. S-nitrosocysteine ...
Activated partial thromboplastin time * Prothrombin time * Thrombin clotting time * von Willebrand factor (vWF:Ag) ...
The objective of this study was to compare the correlation between anti-Xa and activated partial thromboplastin time (aPTT) ... Dive into the research topics of Evaluation of Anti-Xa and Activated Partial Thromboplastin Time Monitoring of Heparin in ... The objective of this study was to compare the correlation between anti-Xa and activated partial thromboplastin time (aPTT) ... The objective of this study was to compare the correlation between anti-Xa and activated partial thromboplastin time (aPTT) ...
We are a young cross-functional team of doctors and engineers with an aim of bringing technology to improve healthcare service offerings in the severely constrained healthcare setup of India. We are passionate about improving healthcare and view technology as a tool to alleviate the burdened healtcare system in India ...
N2 - Activated partial thromboplastin time (aPTT) and prothrombin time (PT) are clinical tests commonly used to screen for ... AB - Activated partial thromboplastin time (aPTT) and prothrombin time (PT) are clinical tests commonly used to screen for ... Activated partial thromboplastin time (aPTT) and prothrombin time (PT) are clinical tests commonly used to screen for ... abstract = "Activated partial thromboplastin time (aPTT) and prothrombin time (PT) are clinical tests commonly used to screen ...
Online ahead of print.ABSTRACTIt is unclear whether activated partial thromboplastin time (APTT) is predictive of survival in ... Prolonged activated partial thromboplastin time predicts poor short-term prognosis in patients with acute pancreatitis:a ... It is unclear whether activated partial thromboplastin time (APTT) is predictive of survival in acute pancreatitis(AP) patients ...
  • This test is called the aPTT, or activated partial thromboplastin time. (wikipedia.org)
  • Many drugs can change the results of the activated partial thromboplastin time (aPTT), including nonprescription drugs. (medscape.com)
  • 6) The prothrombin time(PT) and the active partial thromboplastin time(APTT) were measured by the ACL- 200 antomatic blood agglutination instrument. (sentencedict.com)
  • 7) The prothrombin time PT and the activated partial thromboplastin time APTT were determined with coagulation method. (sentencedict.com)
  • 9) Methods The activated partial thromboplastin time(APTT), prothrombin time(PT)and FX activity(FX:C)test were adopted for phenotype diagnosis. (sentencedict.com)
  • 11) Methods:Amidase activities of PCA from AAV were measured in diverse experimental conditions by respective method of chromogenic substrate and active partial thromboplastin time(APTT). (sentencedict.com)
  • 15) Objective:To explore clinical significance of detecting prothrombin time(PT), the activated partial thromboplastin time(APTT), thrombin time(TT), plasma fibrinogen(FIB) for parturient women. (sentencedict.com)
  • 17) Objective To investigate the effects of different storage temperatures on anticoagulated blood hemagglutination tests, including prothrombin time(PT), and activated partial thromboplastin time(APTT). (sentencedict.com)
  • 18) Objective The aim of this study were to evaluate the value of activated partial thromboplastin time(APTT) in monitoring low-molecular weight heparin(LMWH). (sentencedict.com)
  • 20) Objective: To study the influence of Guanxin Tiemo on anginal partial thromboplastin time(APTT) and fibrinogen(FIB) of patients with coronary heart diseases. (sentencedict.com)
  • The activated partial thromboplastin time (APTT) test measures the time it takes for a blood clot to form. (redcliffelabs.com)
  • The activated partial thromboplastin test or APTT test is requested when a person is suspected to have disorders that hamper the coagulation system of the body. (flebo.in)
  • The activated partial thromboplastin test or APTT test is prescribed when a person shows symptoms of having conditions that affect the coagulation of blood or deficiencies that result in slow or no clotting of blood. (flebo.in)
  • While the clotting time can be calculated with partial thromboplastin time or PTT test, the activated partial thromboplastin time or APTT test adds a catalyst to hasten the clotting time. (flebo.in)
  • The objective of this study was to compare the correlation between anti-Xa and activated partial thromboplastin time (aPTT) with heparin dose and to describe their association with clinical events in adult ECMO patients. (elsevierpure.com)
  • Activated partial thromboplastin time (aPTT) and prothrombin time (PT) are clinical tests commonly used to screen for coagulation-factor deficiencies. (hw.ac.uk)
  • It is unclear whether activated partial thromboplastin time (APTT) is predictive of survival in acute pancreatitis(AP) patients. (nevinmanimala.com)
  • Activated partial thromboplastin time range is generally used to check if the person has bleeding problems. (medicalhealthtests.com)
  • Twelve factors of clotting are needed for the blood to coagulate.The activated partial thromboplastin time level test is important because it is necessary to know how long your blood needs to clot. (medicalhealthtests.com)
  • The activated partial thromboplastin time level test can be done to check if substances known as inhibitors are affecting the blood clotting. (medicalhealthtests.com)
  • Anti-Xa concentration better than activated partial thromboplastin time for the monitoring of unfractionated heparin treatment. (escardio.org)
  • 3) Objective To approach the problem of activated partial thromboplastin time standardization. (sentencedict.com)
  • 4) Activated partial thromboplastin time (APIT), prothrombin time (PT) and thrombin time (TT) were evaluated by test tube method using rabbit named New Zealand White. (sentencedict.com)
  • 14) The changes of pro and posthemodialysis in platelet counting, thrombin time and activated partial thromboplastin time were investigated. (sentencedict.com)
  • The activated partial thromboplastin time test evaluates all the clotting factors and pathways that aid in clotting. (flebo.in)
  • The initial daily dose of heparin was adjusted to keep the activated partial thromboplastin time, sampled at 0800, between 1.5 and 2.5 times the control level. (bmj.com)
  • Anticoagulation was thereafter measured, every four hours for 48 hours, by activated partial thromboplastin time, thrombin time, and coagulation factor Xa inhibition assay. (bmj.com)
  • Differences between night and morning values reached almost 50% for activated partial thromboplastin time, 60% for thrombin time, and 40% for factor Xa inhibition assay. (bmj.com)
  • All patients had a nocturnal peak in activated partial thromboplastin time on both days. (bmj.com)
  • In four patients this peak exceeded the upper desired limit of activated partial thromboplastin time. (bmj.com)
  • Activated partial thromboplastin time within 1.5 x ULN. (uclahealth.org)
  • How well does activated partial thromboplastin time predict postoperative hemorrhage? (bvsalud.org)
  • 1) Plasma fibrinogen levels were assayed by tissue thromboplastin . (sentencedict.com)
  • 8) CBC with platelet count, fibrinogen level, partial thromboplastin time[http://Sentencedict.com], and ABO blood typing and antibody screen are obtained. (sentencedict.com)
  • 10) In response to bleeding, a complex series of clotting-factor interactions leads to its conversion by thromboplastin to thrombin, which transforms fibrinogen in plasma into fibrin. (sentencedict.com)
  • This page describes protocols used for hematology parameters (complete blood count with white cell differentials, reticulocyte and red blood cell indices, platelet count and indices), and coagulation parameters (fibrinogen, prothrombin time, partial thromboplastin time). (jax.org)
  • When manipulated in the laboratory, a derivative could be created called partial thromboplastin. (wikipedia.org)
  • Partial thromboplastin was used to measure the intrinsic pathway. (wikipedia.org)
  • It was not until much later that the subcomponents of thromboplastin and partial thromboplastin were identified. (wikipedia.org)
  • However, partial thromboplastin is just phospholipids, and not tissue factor. (wikipedia.org)
  • Partial thromboplastin time (PTT) is a blood test that looks at how long it takes for blood to clot. (medlineplus.gov)
  • What Is a Partial Thromboplastin Time Test? (kidshealth.org)
  • A partial thromboplastin time (PTT) test measures how long it takes for a clot to form in a blood sample. (kidshealth.org)
  • Activated partial thromboplastin substitution test - diagnostic. (ucsfbenioffchildrens.org)
  • This test is done with partial thromboplastin time test to check if the person has bleeding problems due to clotting factors. (medicalhealthtests.com)
  • 13) We found ABP prolonged coagulation time (CT) in mice, increased plasma prothrombin time (PT) and kaolin partial thromboplastin time (KPTT) in rats. (sentencedict.com)
  • Why is the Activated Partial Thromboplastin test done? (flebo.in)
  • What does the Activated Partial Thromboplastin test measure? (flebo.in)
  • Prothrombin time and partial thromboplastin times are normal. (hawaii.edu)
  • Abnormal assays for factors II and VII in patients with unexplained bleeding and a normal PT, partial thromboplastin time, or INR, as determined by hospital or commercial laboratory tests. (cdc.gov)
  • Screening tests usually show a normal platelet count and, possibly, a slightly prolonged partial thromboplastin time (PTT). (msdmanuals.com)
  • Thromboplastin acts on and accelerates the activity of Factor Xa, also known as thrombokinase, aiding blood coagulation through catalyzing the conversion of prothrombin to thrombin. (wikipedia.org)
  • Thromboplastin is the factor that converts prothrombin to thrombin that forms the clot. (flebo.in)
  • Thromboplastin is the combination of both phospholipids and tissue factor, both of which are needed in the activation of the extrinsic pathway. (wikipedia.org)
  • Complete thromboplastin consists of tissue factor, phospholipids (since platelets were removed from blood sample being tested), and CaCl2 to reintroduce calcium ions which were chelated by sodium citrate originally used to prevent coagulation of the sample blood during transportation and/or storage. (wikipedia.org)
  • 19) Objective To investigate the coagulation promoting mechanism of a new type of organism coagulation promoting tube with tissue thromboplastin extracted from rabbit brain. (sentencedict.com)
  • Historically, thromboplastin was a lab reagent, usually derived from placental sources, used to assay prothrombin times (PT). (wikipedia.org)
  • Phospholipid is available as an independent reagent or in combination with tissue factor as thromboplastin. (wikipedia.org)
  • Thromboplastin (TPL) is derived from cell membranes and is a mixture of both phospholipids and tissue factor, neither of which are enzymes. (wikipedia.org)
  • Calcium and phospholipid emulsion is added to activate the thromboplastin and the time taken for a clot to form is calculated. (flebo.in)
  • 2) When the tissue damage, the release of thromboplastin to prothrombin into thrombin. (sentencedict.com)
  • Discrepancies in FVII:C levels depending on the thromboplastin: about a case]. (bvsalud.org)
  • Thromboplastin is found in brain, lung, and other tissues and especially in blood platelets. (wikipedia.org)
  • thromboplastin is an enzyme largely resident in the platelets. (co.ke)
  • Initial management consisted of en una paciente con topical corticosteroids and oral antihistamines with little clinical response. (bvsalud.org)
  • 12) The PT, PTR and INR of 60 patients treated with oral anticoagulants and 40 patients with liver disorders were determined with the two kinds of thromboplastin reagents. (sentencedict.com)
  • Thromboplastin acts on and accelerates the activity of Factor Xa, also known as thrombokinase, aiding blood coagulation through catalyzing the conversion of prothrombin to thrombin. (wikipedia.org)
  • The cup includes a small copper particle and thromboplastin activator. (darkdaily.com)
  • Les recommandations du CLSI (Clinical and Laboratory Standard Institute) imposent que les tests d'hémostase soient réalisés avec du plasma pauvre en plaquettes ( (who.int)
  • Afin de comparer les résultats obtenus à partir de plasma centrifugé pendant 5 minutes à 3000 g ou pendant 10 minutes à 2000 g, 46 échantillons de sang prélevés sur des adultes en bonne santé ont été analysés pour évaluer le temps de prothrombine, le rapport international normalisé et le temps de thromboplastine partielle activée. (who.int)
  • PTT detects the intrinsic pathway deficiency of the thromboplastin system and the common pathway. (labpedia.net)
  • Heparin inactivates prothrombin (factor II) and prevents the formation of thromboplastin. (labpedia.net)
  • Heparin inactivates prothrombin (Factor II) and will prevent the formation of thromboplastin. (labpedia.net)
  • This probably results from transfer of thromboplastin from the dead twin, producing thrombotic arterial occlusions. (ispub.com)