Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.5 (thrombin)
 33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The relationship between factor VIII (AHF) procoagulant activity and factor VIII-related antigen were examined in patients with disseminated intravascular coagulation (DIC), pulmonary embolism (PE), and coronary artery disease with or without myocardial infarction (MI). It was found that 13 of 13 patients with DIC, 17 of 17 patients with PE, and 10 of 12 patients with MI possessed a significantly elevated factor VIII-related antigen to factor VIII activity ratio (VIII-ratio). The VIII-ratio returned to normal in each of 2 patients with DIC and 1 paitent with PE after treatment with heparin, heparin and alpha-amino-caproic acid, and heparin and coumadin respectively. In contrast, the VIII-ratio was slightly elevated only in 1 of 15 patients with coronary artery insufficiency without MI. In in vitro studies, after treatment of plasma with thrombin or plasmin, factor VIII activity was lost, whereas the amount of factor VIII-related antigen remained the same or was even increased when measured by agarose quantitative immunoelectrophoresis. These observations have led us to conclude that an elevated VIII-ratio is a very sensitive indicator of intravascular coagulation.
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PMID:In vivo and in vitro effects of thrombin and plasmin on human factor VIII (AHF). 13 71

Partially purified human antihemophilic factor (AHF, factor VIII), when treated with high concentrations of salt, has been shown to dissociate into two components: one, of relatively low molecular weight, possesses procoagulant activity, and the other, of higher molecular weight, forms precipitates with heterologous antiserum against AHF and supports ristocetin-induced platelet aggregation. The ease of separation suggests that the two components in the native state might be held together by noncovalent bonds. Earlier observations do not exclude the possibility that the subunits may be covalently bonded in nature but might be severed by plasma proteolytic enzymes during laboratory manipulation. The issue was examined by preparing partially purified AHF from fresh human plasma in the presence of protease inhibitors, including benzamidine, soybean trypsin inhibitor, epsilon-aminocaproic acid, heparin, and hirudin. Under these conditons, gel filtration in the presence of 0.25 M calcium chloride and 0.001 M benzamidine resulted in its separation into two components, having properties identical to those separated in the absence of these protease inhibitors. The inhibitor mixture blocked generation and action of streptokinase- and kaolin-activated plasmin from plasma, and protected both plasma AHF and partially purified AHF from the action of thrombin. Surface-induced activation of PTA (factor XI) was partially inhibited, and that of Christmas factor (factor IX) was completely inhibited. This observation provides further evidence that in the native state the high- and low-molecular-weight components of preparations of antihemophilic factor are held together by noncovalent bonds.
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PMID:Evidence that functional subunits of antihemophilic factor (Factor VIII) are linked by noncovalent bonds. 94 7

Four large-scale batches of Antihemophilic Factor (AHF, factor VIII) were prepared from plasma derived from 4 to 6-day-old blood applying a method developed for preparation of AHF from fresh frozen plasma. The AHF product was 6 to 9-fold concentrated over plasma with 7 to 10-fold purification and a recovery of 100 to 140 factor VIII units per liter of starting plasma. In terms of purity and yield, this is about half that of AHF obtained from fresh frozen plasma. The AHF concentrate was free of detectable thrombin and plasmin and the solubility of the dry product was comparable to that of the product derived from fresh plasma but the hemoglobin content was slightly increased. After further fractionation with polyethylene glycol (PEG 4000), a highly soluble AHF product 100-fold purified, and 30-fold concentrated, was obtained with 60% factor VIII recovery, which corresponds to a final yield of 60 to 85 factor VIII units per liter of starting plasma.
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PMID:Preparation of antihemophilic factor from indated plasma. 95 29

In 18 insulin-dependent diabetics (6 without retinopathy, 6 with proliferative retinopathy and 6 with proliferative retinopathy treated by hypophysectomy) matched for age and duration of diabetics, in vitro haemostasis was studied using ADP induced platelet aggregation, ristocetin induced platelet aggregation which allows von Willebrand factor (VIII VWF) assay, and determination of antihemophilic factor procoagulant activity (VII AHF). Using gel filtration-isolated platelets, the ADP induced hyperaggregation previously reported in diabetics with severe retinopathy untreated by hypophysectomy appeared to be related to a platelet and not a plasma factor; the normal results of thrombin induced aggregation suggests that the presumed abnormal platelet factor is related to the platelet plasma membrane. High level of plasma VII VWF was observed in diabetics with proliferative retinopathy while the VII AHF level was within normal limits.
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PMID:Platelet hyperaggregation and increased plasma level of Von Willebrand factor in diabetics with retinopathy. 108 63

A family is described in which a syndrome resembling moderately severe classic hemophilia was apparently inherited as an X chromosome-linked trait. In two affected individuals, the titer of functional antihemophilic factor varied dramatically from time to time, while the conversion of prothrombin to thrombin was impaired in no apparent relationship to AHF functional activity. A transfusion of 200 ml of fresh-frozen plasma did not correct the serum prothrombin times in either patient. In vitro, the additions of 10% of normal plasma or serum or washed plain or frozen platelets also did not normalize the serum prothrombin times. No inhibitor could be demonstrated in the blood of either patient. In one patient, RH, dissipation of infused cryoprecipitated AHF was abnormally slow, and, after an intensive course of transfusion of cryoprecipitate and whole blood, the titer of functional AHF remained at normal levels for at least 1 wk. The plasma of RH inhibited a human antibody against AHF in proportion to its titer of functional AHF (i.e., the defect was CRM-) despite the presence of relatively greater amounts of antigenic material recognized by heterologous antiserum. No qualitative abnormality of the AHF-like material in RH's plasma was identified. Inheritance of the abnormality appears superficially to be X chromosome-linked; on this assumption, three of four obligate carriers of the disorder were recognized by the presence of excess amounts of AHF-like antigens relative to AHF functional activity. This coagulation disorder has been designated Heckathorn's disease and may presage the discovery of other examples of hemophilia-related syndromes.
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PMID:Heckathorn's disease: variable functional dificiency of antihemophilic factor (factor VIII). 113 38

A patient with Weber-Christian disease (syn. nodular nonsuppurative panniculitis) is reported. The generalized cellular destruction in this patient resulted in liberation of proteolytic enzymes into the circulation, which led to multiple haemostatic disturbances with haemorrhagic diathesis. The most prominent haemostatic defects were thrombocytopenia with a normal life span of isologous platelets, high levels of AHF-related antigen, hypofibronigenaemia with short fibrinogen survival, low levels of Factor XIII (fibrin stabilizing factor = FSF) and increased amounts of fibrin/fibrinogen degradation products (FDP). Proteolytic enzymes, other than thrombin and plasmin which especially degrade Factor XIII and fibrongen, derived from destroyed cells (probably leukocytes) seem to have been involved in the pathogenesis of the bleeding disorder in this patient.
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PMID:Generalized proteolysis in a young woman with Weber-Christian disease (nodular nonsuppurative panniculitis). 121 32

We studied the effects of porcine factor VIII (P-FVIII; Hyate:C) and other coagulation products employed in the management of patients with hemophilia A, on platelet activation in vitro. Exposure of normal resting platelets to P-FVIII resulted in platelet activation, as manifested by increased expression of the platelet surface activation markers CD62, CD63, and activated-GPIIbIIIa, and by activation-induced modulation of expression of normal platelet membrane glycoproteins CD41, CD42, and CD36. In contrast, platelet activation was not observed after exposure of the platelets to human FVIII, FEIBA, recombinant FVIIa, or cryosupernatant plasma. As with thrombin, exposure of platelets to P-FVIII resulted in the generation of platelet microparticles, an effect not seen not with the other products. In contrast to the characteristic reduction in expression in the number of CD42 molecules detected on thrombin-activated platelets, P-FVIII-stimulated platelets showed a small increase in CD42 expression. In contrast to thrombin, P-FVIII did not cause platelet dense granule release. The results indicate that therapeutic P-FVIII activates platelets, likely in ways that are different from the platelet activation seen with thrombin. The observed platelet activation and microparticle generation may provide a "hypercoagulable" mechanism for hemostasis with P-FVIII therapy separate from, and additional to, that due to increased circulating FVIII levels.
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PMID:Platelet activation induced by porcine factor VIII (Hyate:C). 949 69

A review of the literature suggests that assays accurate for the determination of factor VIII in plasma samples may not necessarily retain this accuracy when used for the determination of factor VIII in high-purity factor VII concentrates such as Hemofil M. Review of assay data suggests that it is imperative to obtain maximal activation of the factor VIII in the sample with thrombin when using an assay system of isolated coagulation factors such as the two-stage assay or the various chromogenic substrate assays. Based on a combination of ease and reproducibility of performance and correlation of in vivo and in vitro measurements. it is recommended that the one-stage activated partial thromboplastin time performed with plasma from an individual with severe hemophilia A be used for the measurement of factor VIII potency. Chromogenic substrate assays can be used if care is taken to assure optimal activation of factor VIII by thrombin in the assay and the presence of sufficient factor IXa, phospholipid and calcium ions to stabilize factor VIIIa during the assay process.
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PMID:Issues with the assay of factor VIII activity in plasma and factor VIII concentrates. 1168 46

In order to describe the haemostatic role of a variation in inhibitor reactivity with different factor VIII (FVIII) concentrates, we have compared inhibitor titres against a panel of FVIII concentrates and correlated titre with the capacity to inhibit thrombin generation. Three plasma-derived concentrates were tested in vitro in mixing experiments with inhibitor plasmas from 11 patients with severe haemophilia A: Fanhdi, which contains von Willebrand factor (VWF) with a final ratio of approximately 1:1 (VWF IU per IU FVIII:C); Haemate-P with a ratio of 2.5:1 and Hemofil-M containing only trace amounts of VWF. In addition, the recombinant FVIII concentrate Kogenate Bayer containing no VWF was included. Inhibitor titres and the capacity to generate thrombin were measured. A statistically significant difference in measured titres was found with the highest titres recorded against Hemofil-M. The inhibitor titres needed to inhibit 50% maximum thrombin generation were the lowest for Kogenate Bayer and the highest and similar for Fanhdi and Haemate-P with intermediate titres needed for inhibition of Hemofil-M. In this study, the thrombin generation assay provides additional indications for the role of VWF in the treatment of patients with inhibitors. The VWF-containing concentrates Fanhdi and Haemate-P, added to FVIII-deficient plasma with the presence of inhibitor, generate more thrombin than do the purified concentrates Hemofil-M and Kogenate Bayer.
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PMID:Impact of different inhibitor reactivities with commercial factor VIII concentrates on thrombin generation. 1788 Apr 65

We and others have previously shown that inhibitor containing plasma from patients with congenital haemophilia A sometimes reacts less with von Willebrand factor (VWF) containing concentrates compared with highly purified plasma-derived or recombinant factor VIII (FVIII) concentrates. To further substantiate the haemostatic role of a variation in inhibitor reactivity with different FVIII concentrates, we compared the inhibitor titres from 11 plasma samples against a panel of FVIII concentrates and correlated titre with the capacity to inhibit thrombin generation. Three plasma-derived concentrates were tested: Fandhi (Grifols) which contains VWF with a final ratio of approximately 1 (VWF IU per IU FVIII:C); Haemate (CSL Behring) with a ratio of 2.5 and Haemofil M (Baxter), a monoclonal antibody-purified concentrate containing only trace amounts of VWF. In addition, the recombinant FVIII concentrate Kogenate Bayer (Bayer) containing no VWF was included in the panel. A statistically significant difference in measured titres against the four concentrates was found. The inhibitor titre needed to inhibit 50% maximum thrombin generation was lowest for Kogenate Bayer and highest and similar for Fandhi and Haemate. This study confirms the results from previous research regarding variation of inhibitor reactivity against different concentrates and further shows that the VWF containing concentrates Fandhi and Haemate added to FVIII-deficient plasma with the presence of inhibitor generate more thrombin than do the purified concentrates Haemofil M and Kogenate Bayer. A further interesting aspect could be that bypass therapy may have an increased efficacy when infused together with FVIII concentrates containing VWF. However, the clinical implications of all these findings in vitro need to be established.
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PMID:VWF/FVIII complex and the management of patient with inhibitors: from laboratory to clinical practice. 1807 1


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