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Factor V Leiden (rs6025 or F5 p.R506Q [1]) is a variant (mutated form) of human factor V (one of several substances that helps blood clot), which causes an increase in blood clotting (hypercoagulability).
Factor V Leiden is responsible for 8% of cases. [2] Other less common inherited disorders leading to the condition include factor II mutation (3%), protein C deficiency (5%), protein S deficiency (4%), and antithrombin III deficiency(1%). [2] [14] Budd–Chiari syndrome may be the presenting sign of these hypercoagulable disorders.
14067 Ensembl ENSG00000198734 ENSMUSG00000026579 UniProt P12259 O88783 RefSeq (mRNA) NM_000130 NM_007976 RefSeq (protein) NP_000121 NP_032002 Location (UCSC) Chr 1: 169.51 – 169.59 Mb Chr 1: 163.98 – 164.05 Mb PubMed search Wikidata View/Edit Human View/Edit Mouse Coagulation factor V (Factor V), also less commonly known as proaccelerin or labile factor, is a protein involved in ...
As such, family history of VTE is a risk factor for a first VTE. [88] Factor V Leiden, which makes factor V resistant to inactivation by activated protein C, [88] mildly increases VTE risk by about three times. [14] [88] Deficiencies of three proteins that normally prevent blood from clotting—protein C, protein S, and antithrombin ...
Human Chr 3. In terms of the cause of protein S deficiency it can be in inherited via autosomal dominance.A mutation in the PROS1 gene triggers the condition. The cytogenetic location of the gene in question is chromosome 3, specifically 3q11.1 [6] [7] Protein S deficiency can also be acquired due to vitamin K deficiency, treatment with warfarin, liver disease, kidney disease, chemotherapy ...
[1] [5] This ratio is inversely related to the degree of APC resistance. [7] The ETP-based APC resistance test involves the addition of APC to a thrombin generation assay (TGA). [5] This results in an inhibition of thrombin generation as measured by reduction of the endogenous thrombin potential (ETP; area under the thrombin generation curve). [5]
Splenic infarct seen on CT Healed splenic infarct. Several factors may increase the tendency for clot formation, such as specific infections (such as infectious mononucleosis, [9] [dubious – discuss] [better source needed] cytomegalovirus infection, [10] malaria, [11] or babesiosis [12]), inherited clotting disorders (thrombophilia, such as Factor V Leiden, antiphospholipid syndrome ...
The best known and most common hereditary form is Factor V Leiden, which is responsible for more than 95% of cases. [5] Other genetic causes include Factor V Cambridge (VThr306) and the factor V HR2 haplotype (A4070G mutation). [5] [6] Acquired forms of APC resistance occur in the presence of elevated Factor VIII concentrations.