Factor V Leiden in Patients with Venous Thrombosis in Slovak Population (original) (raw)
Related papers
Inherited thrombophilia due to factor V Leiden mutation*
Molecular Diagnosis, 1998
Inherited thrombophilia due to activated protein C resistance is now recognized as one of the major genetic risk factors in the development of venous thromboembolic disease. Activated protein C resistance is secondary to a point mutation in the factor V gene, factor V Leiden. The high prevalence of this mutation in the general population, mainly in Caucasians of European descent, is a major contributing factor to the high incidence of venous thromboembolic disease in the United States, affecting one in 1000 individuals annually. Heterozygosity and homozygosity for factor V Leiden increase the risk for thrombosis 5-to 10-fold and 50-to 100-fold, respectively, compared with genotypically normal individuals. Factor V Leiden is more common than all other known genetic risk factors for thrombosis, and its presence results in a compounded risk in patients with simultaneous inherited abnormalities such as protein C, protein S, antithrombin III deficiencies, hyperhomocysteinemia, and/or acquired risk factors. Therefore, detection of activated protein C resistance and genotyping for factor V Leiden are important for establishing risk for thrombosis and ultimately for patient management.
Annual Review of Medicine, 1997
▪ Inherited resistance to activated protein C (APC) was recently discovered to be a cause of familial thrombophilia and is now known to be the most common genetic risk factor for venous thrombosis. It is caused by a single point mutation in the gene for factor V, which predicts substitution of arginine (R) at position 506 with a glutamine (Q). Accordingly, the activated form of mutated factor V (FVa:Q506) is more slowly degraded by activated protein C than normal FVa (FVa:R506) is, resulting in hypercoagulability and a lifelong 5- to 10-fold increased risk of venous thrombosis. Previously known inherited hypercoagulable states, i.e. deficiencies of the anticoagulant proteins antithrombin III, protein S, and protein C, are found in fewer than 10–15% of thrombosis patients in western countries, whereas inherited APC resistance is present in 20–60% of such patients. The FV mutation is common in populations of Caucasian origin, with prevalences ranging from 1–15%, whereas it is not fo...
Experimental and Molecular Pathology, 2007
Activated protein C resistance (APCR) is a significant risk factor for venous thromboembolism (VTE), with the factor V (FV) G1691A (Leiden) mutation accounting for the majority of inherited APCR cases. An additional FV polymorphism, A4074G (FV-HR2), reportedly increased VTE risk by some, but not all groups. We determined the prevalence of FV-Leiden and FV-HR2 SNPs in 126 patients with deep venous thrombosis (DVT), and 197 control subjects. Frequencies of FV-Leiden A and HR2 G alleles, together with FV-Leiden G/A and A/A (but not HR2 A/G) genotypes were significantly higher among patients. While no significant linkage disequilibrium was noted between FV 1691A and 4070G or A alleles, significantly higher prevalence of single-mutant 1691G/4070G and 1691A/4070A haplotypes were seen in patients. FV Leiden and FV HR2 haplotype are independent risk factors for DVT, and their coinheritance does not seem to increase significantly DVT risk imparted by either.
Factor V Leiden as a Common Genetic Risk Factor for Venous Thromboembolism
Journal of Nursing Scholarship, 2006
To increase nurses' knowledge of the Factor V Leiden (FVL) genetic trait for venous thromboembolism. An overview of the history, prevalence, and predisposition of the FVL genetic mutation, including who should be tested and how and in what circumstances people with FVL should be treated. FVL is the most commonly recognized genetic trait associated with venous thrombosis. It is found predominantly in Caucasian populations. Biochemically it causes "activated protein C resistance (APCR)." The decision to test for FVL depends on whether the information gained will potentially improve the health care of the person or family. For people who have had deep venous thrombosis, testing for FVL will likely not alter treatment approaches. Currently the advantage for testing is primarily limited to asymptomatic family members who carry FVL and who have had deep vein thrombosis. Close relatives who also carry the mutated gene might benefit from prophylactic anticoagulation when their risk of thrombosis is increased by temporary factors such as surgery. Nurses are in a unique position to provide accurate information and counseling when patients and their family members are presented with the results of thrombophilia testing.
Detection of factor V Leiden in Thai patients with venous thrombosis
Asian Pacific journal of allergy and immunology / launched by the Allergy and Immunology Society of Thailand
The molecular defect underlying activated protein C resistance (APC-R) is caused by a G to A point mutation in the codon for arginine 506 in the factor V gene (factor V Leiden) which is a major risk factor for venous thrombosis, especially in Caucasian populations. This study is an analysis of the Thai population to determine the prevalence of the factor V Leiden mutation. Twenty-seven patients with apparent venous thrombosis were divided into two groups according to APC-R test. Thirteen patients were diagnosed as positive for n-APC-SR, ratio < 0.8 and fourteen patients were diagnosed as negative for n-APC-SR, ratio > 0.8. Two of thirteen APC-R positive patients and one of fourteen APC-R negative patients were found to have the heterozygous allele for the factor V Leiden mutation but the homozygous allele was not detected in these groups of patients. Neither the heterozygous nor homozygous Leiden mutation was detected in 200 healthy volunteer blood donors. In conclusion, our f...
British Journal of Haematology, 1994
Summary. Recent findings have indicated the importance of factor V (FV) in causing resistance to activated protein C (APC) in a high proportion of patients with venous thrombosis. This prompted us to investigate whether resistance could be due to defective inactivation of FVa by APC. Consequently, we amplified a 3.2 kb fragment of the FV gene sequence encoding the heavy chain APC cleavage site. DNA analysis showed a guanine to adenine transition at nucleotide 1691 in all affected members of two families with inherited APC resistance associated with thrombosis and confirmed suspected homozygosity in two individuals. The mutation, in heterozygous form, was also found in ˜3.5% of our normal population (n = 144) and correlated with low APC resistance. The high prevalence of this mutation suggests that it may be a major contributory factor in early thrombosis.
International Journal of Std & Aids, 2001
Background: Factor V Leiden is the most common genetic defect associated with venous thromboembolism. Its clinical expression is limited and shows a wide intra-and interfamilial variation, that might be explained by the influence of other genetic risk factors. Methods: We retrospectively studied 226 patients with factor V Leiden and documented venous thromboembolism (probands) and 400 first degree carrier relatives to assess the contribution of concomitant genetic risk factors to the occurrence of venous thromboembolism. Results: The prothrombin G20210A mutation was found in 8.3%, homozygosity of factor V Leiden in 7.2%, and inherited deficiencies of antithrombin, protein C or protein S in 4.7% of symptomatic carriers (probands and relatives), as compared with 6.0%, 3.4% and 0.9% of asymptomatic carriers, respectively. Annual incidences of venous thromboembolism in relatives with these concomitant defects were 0.57%, 1.41% and 4.76%, respectively, as compared with 0.39% in single heterozygous carriers of factor V Leiden.
Prevalence of the Factor V Leiden Mutation in Patients Susceptible to Venous Thromboembolism
Health Problems of Civilization
Authors' contribution Wkład autorów: A. Study design/planning zaplanowanie badań B. Data collection/entry zebranie danych C. Data analysis/statistics dane-analiza i statystyki D. Data interpretation interpretacja danych E. Preparation of manuscript przygotowanie artykułu F. Literature analysis/search wyszukiwanie i analiza literatury G. Funds collection zebranie funduszy Summary Background. A tendency to venous thromboembolism is otherwise called hypercoagulability or thrombophilia. This disease can be acquired or have a genetic background, and may lead to pulmonary embolism. The basis for analysis and selection of treatment is genetic diagnosis, which detects the G1691A mutation in the factor V gene (factor V Leiden)-the best known congenital thrombophilia marker. Material and methods. The study was carried out in the years 2015-2017 on samples taken from patients (462 men and 1284 women) with a tendency to venous thromboembolism. Real-Time PCR was used to detect G1691A mutation in factor V gene. The analyses were performed in the Hematology Laboratory of the Center of Laboratory Medicine at the Medical University of Gdańsk. Results. Significant differences in the frequency of Leiden mutation were shown. This mutation predominated in men (25%), while in women G1691A mutation was detected with a 15% frequency (p=0.04). All possible genotypes were found among the subjects and the percentage of heterozygotes and homozygotes in both genders was similar. Conclusions. Congenital thrombophilia associated with G1691A mutation of factor V Leiden gene was found to be more common in men than in women. All possible genotypes were determined in the pool of test subjects. The mutation was most frequently detected in patients between 30 and 40 years of age, and rarely after 70 years of age.