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Query: UMLS:C0684275 (
haemophilia
)
10,958
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hereditary deficiency of factor VIII (FVIII),
haemophilia
A, is treated by plasma-derived FVIII (pd-FVIII) or recombinant FVIII (rFVIII) infusions. B-domain-deleted FVIII (BDD-rFVIII), although generally safe and effective, was less effective than pd-FVIII in prophylaxis -- evidenced by a 2.5-fold higher bleeding incidence. Assessment of BDD-rFVIII activity in chromogenic and one-stage clotting assays gives up to 50% difference in activity values. As earlier studies demonstrated identical activation and cofactor activity of BDD-rFVIII and pd-FVIII, we decided to study susceptibility of thrombin-activated pd-FVIII, full-length rFVIII and BDD-rFVIII to proteolytic inactivation by
activated protein C
(
APC
) and activated factor X (FXa) in a purified system. Proteolysis was monitored by Western blot using monoclonal antibodies C5 and R8B12 specific for the A1 and A2 domains, respectively. Inactivation was monitored by measuring the residual cofactor activity of FVIII forms in a one-stage clotting assay. Proteolysis of A1 and A2 domains of activated BDD-rFVIII proceeded 11 or 13 times faster than that of pd-FVIII or full-length rFVIII. Inactivation of activated BDD-rFVIII was two to three times faster by
APC
and five to six times faster by FXa. We suggest that differences in proteolytic inactivation may contribute to differences between BDD-rFVIII and pd-FVIII in assaying and in clinical use.
...
PMID:Role of the B domain in proteolytic inactivation of activated coagulation factor VIII by activated protein C and activated factor X. 1678 14
Hematologic disorders are frequently encountered in the intensive care unit. Thrombocytopenia, often defined as a platelet count below 100,000/microL, is common in critically ill patients and may be associated with adverse outcomes. A systematic evaluation of clinical and laboratory findings is necessary to ascertain the cause of the thrombocytopenia and to determine the correct therapy. Recognition of heparin-induced thrombocytopenia (HIT) is particularly important, given the risk of thrombosis associated with this condition. Prompt cessation of all heparin products is required, and anticoagulation with a direct thrombin inhibitor is recommended if HIT is strongly suspected. Coagulopathies are also common in the critically ill, and are often due to vitamin K deficiency or disseminated intravascular coagulation (DIC). A careful history and interpretation of clotting studies are useful in defining the coagulation defect. Advances in understanding the pathogenesis of DIC have generated new treatment approaches, such as the use of recombinant
activated protein C
. Recombinant factor VIIa (rFVIIa) is a novel drug approved for use in patients with congenital
hemophilia
and inhibitors. Although its use as a hemostatic agent is currently being evaluated in several off-label scenarios, including trauma, intracerebral hemorrhage, and liver disease, there are limited data to guide therapy in these conditions.
...
PMID:Hematologic disorders in critically ill patients. 1679 61
The coagulation and fibrinolytic systems safeguard the patency of the vasculature and surrounding tissue. Cross regulation of coagulation and fibrinolysis plays an important role in preserving a balanced hemostatic process. Identification of Thrombin Activatable Fibrinolysis Inhibitor (TAFI) as an inhibitor of fibrinolysis and one of the main intermediates between coagulation and fibrinolysis, greatly improved our understanding of cross regulation of coagulation and fibrinolysis. As TAFI is an enzyme that is activated by thrombin generated by the coagulation system, its activation is sensitive to the dynamics of the coagulation system. Defects in coagulation, such as in thrombosis or
hemophilia
, resonate in TAFI-mediated regulation of fibrinolysis and imply that clinical symptoms of coagulation defects are amplified by unbalanced fibrinolysis. Thrombomodulin promotes the generation of both antithrombotic
activated protein C
(
APC
) and prothrombotic (antifibrinolytic) activated TAFI, illustrating the paradoxical effects of thrombomodulin on the regulation of coagulation and fibrinolysis. This review will discuss the role of TAFI in the regulation of fibrinolysis and detail its regulation of activation and its potential therapeutic applications in thrombotic disease and bleeding disorders.
...
PMID:Regulation of fibrinolysis by thrombin activatable fibrinolysis inhibitor, an unstable carboxypeptidase B that unites the pathways of coagulation and fibrinolysis. 1696 Jan 6
Several groups report stability results for freeze-dried whole plasma intended for use as a transfusion product [Hellstern P, Sachse H, Schwinn H, Oberfrank K. Manufacture and in vitro characterization of a solvent/detergent-treated human plasma. Vox Sang 1992;63:178-185; Trobisch H. Results of a quality-control study of lyophilized pooled plasmas which have been virally inactivated using a solvent detergent method (modified Horowitz procedure). Beitr Infusionsther 1991;28:92-109; Hugler P, Trobish H, Neuman H, Moller, Sirtl C, Derdak M, Laubenthal H. Quality control of three different conventional fresh-frozen plasma preparations and one new virus-inactivated lyophilized pooled plasma preparation. Klin Wochenschr 1991;69:157-161; Krutvacho T, Chuansumrit A, Isarangkura P, Pintadit P, Hathirat P, Chiewsilp P. Response of
hemophilia
with bleeding to fresh dry plasma. Southeast Asian J Trop Med Public Health 1993;24:169-173; Chuansumrit A, Krasaesub S, Angchaisuksiri P, Hathirat P, Isarangkura P. Survival analysis of patients with
haemophilia
at the International
Haemophilia
Training Centre, Bangkok, Thailand.
Haemophilia
2004;10:542-549]. Plasma coagulation properties are substantially impaired in these freeze-dried plasmas, while pH levels are close to alkaline. In this work, plasma supplemented with 60mM sucrose, trehalose, mannitol, sorbitol or glycine was freeze-dried. The samples were subjected to forced degradation at 40 degrees C for 10 days in order to quickly evaluate the effectiveness of the different stabilizers. Initial PT, APTT and TT values were 14.4+/-0. 5s, 31.4+/-1.5s and 18.3+/-0.6s, respectively. At the end of the degradation period, PT, APTT and TT were substantially prolonged, and were 19.1+/-0. 5s, 43.1+/-0.6s and 26.1+/-1.0s, respectively. In the presence of glycine, at the end of the degradation period, PT, APTT and TT values remained close to the initial values and were 15.5+/-0. 4s, 35.7+/-0.9s and 19.4+/-0.2s, respectively. Percent activities of the coagulation factors V, VII, VIII, IX, X and the coagulation inhibitors
protein C
, protein S and antithrombin III were recorded. Factors V and VIII were most prone to degradation. Factor V and VIII activities, in control plasma, were approx. 44+/-3.5% and 58+/-2.3%, at the end of storage. In contrast, much higher factor V and VIII activities were maintained in the lyophilized glycine-supplemented plasma: approx. 60+/-3.5% and 74+/-7.0%, correspondingly. The most stable protein was
protein C
, which showed no signs of degradation under the testing conditions of this study. All tested stabilizers provided protection. Glycine, however, outperformed all tested polyols, providing superior preservation of plasma clotting properties. Thermograms of 60mM glycine in water and 60mM glycine in plasma show that, in the presence of plasma, glycine does not crystallize. The process of freeze-drying caused a complete loss of plasma pCO(2) (gas) and a substantial increase in plasma pH. Citric acid was found to be a suitable pH adjuster for lyophilized/rehydrated plasma.
...
PMID:Freeze-dried whole plasma: evaluating sucrose, trehalose, sorbitol, mannitol and glycine as stabilizers. 1696 45
Calibrated automated thrombography (CAT) enables continuous measurement of thrombin generation (TG). Initial clinical studies using the CAT method showed large variability of normal values, indicating the necessity for a standardized CAT protocol. This international study assessed the intra- and inter-assay imprecision of CAT as well as the inter-centre variability of results in five European centres using locally available reagents and conditions (study 1) and a standardized protocol in which results were normalized (study 2). Samples with and without corn trypsin inhibitor from six healthy volunteers, two
haemophilia
patients and one
protein C
deficient patient were assayed. Study 1 confirmed that the use of different sources and concentrations of tissue factor (TF) and different phospholipid (PL) mixtures produced large variability in results. The second study demonstrated that, using the same source and concentration of TF, PL and the same test procedure, this variability could be significantly reduced. Normalization of results improved the inter-centre variability. The benefit of contact factor inhibition prior to TG measurement was confirmed. These results demonstrated that standardization of CAT reduces the variability of results to acceptable limits. Standardization and normalization should be considered in future clinical studies which apply TG testing to clinical decision making.
...
PMID:Effect of standardization and normalization on imprecision of calibrated automated thrombography: an international multicentre study. 1789 7
Molecular biological methods have become increasingly important not only in the diagnostics of inherited monogenetic diseases such as hemophilia A or B but also in the diagnostics of polygenetic diseases e.g. venous and arterial thrombosis. In
haemophilia
A, sequencing of the factor VIII gene has been established in addition to the analysis of the two most frequent genetic abnormalities, the inversions in intron 22 and intron 1, in several centers. Molecular testing has proved helpful to identify
haemophilia
patients at high risk to develop inhibitors as well as in carrier analysis. In patients with familial
protein C
or protein S deficiency mutation analysis contributes to the verification of the diagnosis. The frequently performed tests for the factor V Leiden mutation and the prothrombin 20210G>A variation can potentially support the estimation of the thrombotic risk as well as the risk of recurrence. However, any uncritical application of these genetic tests does not improve diagnostics nor does it support therapeutic decision making or counselling of the patient. Therefore, one should only do genetic tests with medical or therapeutic consequences. The applicability of mutation analysis in the daily routine is still limited in spite of the importance of molecular diagnostics in the understanding of pathomechanisms of haemostatic disorders. As has been demonstrated in large studies, the phenotypic effects of mutations can vary significantly between individuals. Endogenous and exogenous modulators that are still largely unknown, play a role. Currently, the understanding of these modulators is limited, and large multicenter studies and meta-analyses are needed for a better understanding of gene-gene and gene-environment interactions.
...
PMID:[Molecular biology and haemostasis]. 1913 59
Severe
protein C
deficiency (i.e.
protein C
activity <1 IU dL(-1)) is a rare autosomal recessive disorder that usually presents in the neonatal period with purpura fulminans (PF) and severe disseminated intravascular coagulation (DIC), often with concomitant venous thromboembolism (VTE). Recurrent thrombotic episodes (PF, DIC, or VTE) are common. Homozygotes and compound heterozygotes often possess a similar phenotype of severe
protein C
deficiency. Mild (i.e. simple heterozygous)
protein C
deficiency, by contrast, is often asymptomatic but may involve recurrent VTE episodes, most often triggered by clinical risk factors. The coagulopathy in
protein C
deficiency is caused by impaired inactivation of factors Va and VIIIa by
activated protein C
after the propagation phase of coagulation activation. Mutational analysis of symptomatic patients shows a wide range of genetic mutations. Management of acute thrombotic events in severe
protein C
deficiency typically requires replacement with
protein C
concentrate while maintaining therapeutic anticoagulation;
protein C
replacement is also used for prevention of these complications around surgery. Long-term management in severe
protein C
deficiency involves anticoagulation with or without a
protein C
replacement regimen. Although many patients with severe
protein C
deficiency are born with evidence of in utero thrombosis and experience multiple further events, intensive treatment and monitoring can enable these individuals to thrive. Further research is needed to better delineate optimal preventive and therapeutic strategies.
Haemophilia
2008 Nov
PMID:Protein C deficiency. 1914 Nov 62
Increased concentration of
activated protein C
(
APC
) has been observed in patients with thromboembolic disorders, but whether the level of
APC
in patients with bleeding disorders is decreased remains unknown. Seventy patients with
haemophilia
A or B with mild, moderate or severe form were studied. Detailed information on bleeding, arthropathy and factor consumption was collected during a 10-year period. The clinical severity of the disease was expressed as the
Hemophilia
Severity Score (HSS). Plasma concentration of
APC
was measured as
APC
in complex with protein C inhibitor. The median concentration of
APC
-PCI complex in patients with
haemophilia
was 0.14 microg L(-1) and it did not differ between the types and forms. In 16 patients with severe
haemophilia
A and the inversion mutation in intron 22, there was no correlation between clinical severity and the concentration of
APC
-PCI complex. Patients with
haemophilia
appear to generate normal concentrations of
APC
during basal conditions.
APC
does not seem to be an important modulator of the phenotypic expression of
haemophilia
.
Haemophilia
2009 Mar
PMID:The plasma concentration of activated protein C appears normal in patients with haemophilia. 1917 19
This is a review of less well-known aspects of thrombophilia and hypercoagulability as they relate to thrombosis. Thrombosis is an abnormal fibrin clot that develops in circulating blood with clinical symptoms of one or more arterial and/or venous obstructions exclusively identified by imaging techniques. The terms thrombophilia and hypercoagulability are often used indiscriminately when they are in fact separate entities. Thrombophilia is an inherited or acquired clinical phenotype manifesting in selected individuals as a greater risk to develop recurrent thrombosis at a younger age than the general population, with considerable differences in the magnitude of risks among individuals in the same family with the same thrombophilic gene defect. Hypercoagulability is a laboratory phenotype whereby in vivo activation of clotting, fibrinolysis, endothelial cells and platelets is identified in vitro by specialized clotting techniques and by specific antibodies directed at biomarkers of clotting activation and damaged vasculature. Hypercoagulability may be provoked by drugs to treat bleeding in
hemophilia
, by sepsis, inflammation, surgery, blood stasis, atherosclerosis, and it manifests selectively in inherited and acquired thrombophilia. A chronology of the discovery of acquired and inherited thrombophilia puts in perspective the data analyzed in two representative large family studies that address whether venous and arterial thrombosis are a necessary outcome in thrombophilia, and the question, whether patients with inherited antithrombin,
protein C
and protein S deficiencies need to be treated after a first episode of thrombosis. The liberal use of case vignettes emphasizes a close relationship and the distinction between thrombosis, thrombophilia and hypercoagulability.
...
PMID:Thrombophilia and hypercoagulability. 1979 18
Several inherited prothrombotic risk factors have been identified so far. Among them, the factor V (FV) Leiden mutation causes a reduced ability of
activated protein C
to inactivate activated FV and is the most frequent genetic predisposing factor for venous thromboembolism. However, the high prevalence of FV Leiden (up to 15%) in the Caucasian population suggests that this mutation might confer an evolutionary survival advantage. Indeed, there is mounting evidence about the role of FV Leiden in modulating the clinical phenotype of some physiological and pathological conditions, including
hemophilia
. The existing literature on the interaction between FV Leiden and
hemophilia
-related factor VIII or IX mutations is analyzed in this review focusing on the clinical effects and possible pathogenic mechanisms. In summary, current evidence suggests that this prothrombotic mutation may compensate for the low factor VIII or IX levels, resulting in more efficient thrombin generation and ensuing attenuation of clinical symptoms. On the other hand, the association of this prothrombotic mutation with other acquired or inherited thrombophilic factors might overcome the congenital bleeding tendency in hemophiliacs, thereby increasing the risk of thrombotic complications.
...
PMID:Factor V Leiden and hemophilia. 1993 55
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