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Query: UMLS:C0033036 (
APC
)
10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Resistance to activated protein C (APCR) has emerged as the most important hereditary cause of venous thromboembolism. Using an aPTT-based method together with DNA technique we investigated 120 healthy neonates and infants < 12 months of age and 24 infants with septicaemia for the presence of this mutation. In addition, data of 11 neonates with vascular occlusion, heterozygous (+/-) for the Arg 506 Gln mutation were included. Results of an aPTT-based method (clotting time using the
APC
/CaCl2 solution obtained in an undiluted, 1:5 and 1:11 dilution with
factor V
deficient plasma divided by clotting time with CaCl2 in the same plasma dilution) are shown: Whereas 7 (5.5%) out of 120 healthy neonates were (+/-) carriers for the
factor V
Arg 506 Gln mutation, concordance with the aPTT-based method (cut-off defined as ratio < 2) was found only when using the 1:11 plasma dilution. Six (four) out of 24 infants with sepsis, not carrying the
factor V
mutation, would have been classified as
APC
resistant when using the 1:1 (1:5) plasma dilution. Four (two) out of 18 patients, (+/-) for the Arg 506 Gln mutation showed
APC
ratios > 2 in the 1:1(1:5) plasma dilution.
...
PMID:APC resistance in neonates and infants: adjustment of the APTT-based method. 886 17
Protein C is a major regulatory protein critical to physiologic anticoagulation. When activated, it selectively degrades the activated forms of factors V and VIII, thereby, down-regulating blood coagulation. Using an activated partial thromboplastin time (APTT) assay, Dahlback et al. recently reported that some individuals with thrombophilia show a poor in vitro anticoagulant response to activated protein C (
APC
-Resistance). Subsequent studies identified a point mutation in the gene for
factor V
as the underlying cause of
APC
-Resistance. The incidence of
APC
-Resistance in patients with recurrent thromboembolic events approaches 50%. The
APC
-Resistance phenotype is also present in approximately 5% of normal Caucasian subjects. In an attempt to develop a more sensitive and specific test system, we evaluated an assay based on Textarin(Pentapharm, Basel, Switzerland). Textarin, a protein fraction of Pseudonaja textilis venom (Australian Eastern Brown Snake) activates prothrombin in the presence of phospholipid (PL),
factor V
and calcium ions. Based on Textarin's requirement for
factor V
, we developed a Textarin time assay to test for
APC
-Resistance. We evaluated this test system in normal subjects and the following patient populations: stable orally anticoagulated, previously diagnosed factor V Leiden, and therapeutically heparinized samples. We found the Textarin assay to be a sensitive and specific test system to identify
APC
-Resistance. The phenotypic Textarin
APC
-Resistance test correlated more closely with the genotypic abnormality of factor VR506Q than the APTT-
APC
-Resistance test.
...
PMID:APC-resistance as measured by a Textarin time assay: comparison to the APTT-based method. 887 45
APC
resistance is a common and strong hereditary risk factor for venous thrombosis. This plasma abnormality appears to be almost always caused by the same defect in the coagulation factor V gene (a G --> A transition at nucleotide 1691 leading to replacement of 506 Arg by Gln; factor V Leiden). Therefore, it is possible to consider a simple and specific genetic test as an alternative to a plasma
APC
resistance test that is compromised by treatment and other factors. We have investigated whether a new amplification procedure, NASBA, together with the detection procedure ELGA would provide a simple protocol for the nucleotide specific detection of the
factor V
mutation.
...
PMID:Use of the direct RNA amplification technique NASBA to detect factor V Leiden, a point mutation associated with APC resistance. 889 56
Resistance to activated protein C (APC-R) is at present considered the most frequent laboratory abnormality in patients with deep vein thrombosis. An increased risk for venous thrombosis is associated with the use of oral contraceptives (OCs). We recently described a statistically significant association between
APC
-R status and oral contraceptives use in a healthy group of women. We re-evaluated 50 healthy women taking low-dose combination OCs in order to consider a possible correlation between the
APC
sensitivity ratio (APC-SR) and different oral contraceptive formulations. Seven women showed an
APC
ratio < or = 2 (APC-resistant). Only one of the seven women was found to be heterozygous for Leiden
factor V
mutation. We observed no significant differences between normally sensitive and
APC
-resistant women in terms of duration of OC use, amount of estrogenic or progestogenic dose, or type of formulation. We conclude that
APC
-resistance associated with oral contraceptives use seems to occur only in predisposed subjects (in our results, about 12% of the healthy population).
...
PMID:Resistance to activated protein C, associated with oral contraceptives use; effect of formulations, duration of assumption, and doses of oestro-progestins. 889 55
Activated protein C resistance ratio (APC-Rr), factor VIIIC (FVIIIC) and plasma fibrinogen levels were studied in patients with inflammatory disease. The patient mean
APC
-Rr was significantly lower than in the control group. This decreased ratio in inflammatory diseases appeared to be connected with increased FVIIIC. Moreover, supplementation of plasmas with purified factor VIII decreased the
APC
-Rr in plasma from both groups, and suppressed the difference between groups. These data suggest that factor VIIIa and factor Va compete for protein C-catalysed cleavage. Ratios were identical in both groups when FVIIIC level was lowered by dilution in
factor V
deficient plasma.
...
PMID:Role of factor VIII on activated protein C resistance ratio in inflammatory diseases. 890 3
To evaluate if the presence of anti-beta 2GPI antibodies (a beta 2GPI) is associated with activated protein C resistance (APC-R) phenotype, we performed the
APC
-R APTT-based assay in 74 plasma samples from patients with antiphospholipid antibodies (aPL). Samples were diluted 1:5 in
factor V
-deficient plasma. Lupus anticoagulant (LA), anticardiolipin antibodies (aCL) and a beta 2GPI (IgG and IgM) were also performed. A control group of 22 healthy volunteers was used. The prevalence of reduced
APC
-R ratio in patients with aPL was significantly higher than in normal controls (31.1 vs 4.5%, P < 0.05) and the mean
APC
-R ratio was lower (mean +/- SD; 2.32 +/- 0.40 vs 2.55 +/- 0.21, P < 0.02). There were no differences in the prevalence of
APC
-R and the ratio values between LA(+) and LA(-). Among the LA(+), the aCL(+) had a higher prevalence of
APC
-R than the aCL(-) (P < 0.01) and lower
APC
-R ratios (P < 0.01). The latter group was no different to normal controls. Anti-beta 2GPI antibodies were associated with a higher prevalence of
APC
-R (50.0 vs 19.6%, P < 0.001), and lower
APC
-R ratios (2.15 +/- 0.41 vs 2.42 +/- 0.35, P < 0.005), compared with a beta 2GPI(-). In conclusion, the acquired
APC
-R in patients with aPL seems to be associated with aCL and a beta 2GPI rather than an in vitro interference by LA.
...
PMID:Activated protein C resistance in patients with anti-beta 2 glycoprotein I antibodies. 895 93
This report describes the characterization of Swedish families with inherited resistance to activated protein C (
APC
resistance) and/or protein S deficiency, two genetic disorders associated with functional impairment of the protein C anticoagulant pathway. The
APC
resistance phenotype was linked to the
factor V
gene locus in a kindred with independent inheritance of
APC
resistance and protein S deficiency. A point mutation changing Arg506 to a Gln (FV:Q506) in the
factor V
gene was the cause of
APC
resistance. In studies of 50 families with hereditary
APC
resistance, the FV:Q506 mutation was identified in 94% (47/50) of the families, and the thrombotic risk was found to be dependent on the
factor V
genotype. Moreover, 18 families with hereditary deficiency of free protein S were investigated. Type I protein S deficiency (low free and total protein S) and type III deficiency (low free but normal total protein S) coexisted in 78% (14/18) of the families, suggesting the two types to be phenotypic variants of the same genetic disorder. Deficiency of free protein S was caused by equimolar relationship between protein S and beta-chain containing isoforms of C4BP. Though protein S deficiency was a strong risk factor for thrombosis, the FV:Q506 mutation was identified as an additional genetic risk factor in 39% of the families. Thus, familial thrombophilia is a multiple gene disorder. The thrombophilic tendency associated with
APC
resistance or protein S deficiency was related to increased levels of prothrombin fragment 1 + 2, reflecting increased activation of the common coagulation pathway.
...
PMID:Familial thrombophilia: clinical and molecular analysis of Swedish families with inherited resistance to activated protein C or protein S deficiency. 898 66
Activated protein C resistance (APCR) has proved to be a frequent finding in association with thrombosis. The majority of patients with APCR have been found to be homozygous or heterozygous for the polymorphic variant
factor V
Q506 (factor V Leiden; FVQ506). However a small number of patients have APCR as assessed by functional tests but do not possess the FVQ506 polymorphism. Some of these cases are due to the presence of a lupus type anticoagulant but in this report we demonstrate that the remainder are almost entirely (nine out of ten) associated with an elevated level of FVIIIc. Spiking experiments in normal patient plasma and venous occlusion tests demonstrated that elevation of the FVIIIc results in a reduced APCR ratio and shortening of the APTT. Variation in FVIIIc, in conjunction with other factors, may therefore explain the variable phenotype associated with FVQ506 and the phenomenon of thrombosis associated APCR in the absence of FVQ506. We conclude that FVIIIc as well as FVQ506 should be taken into account when assessing thrombotic risk. APCR, elevated FVIIIc and shortened APTT have all been previously identified with an increased risk of thrombosis. It follows that resistance to
APC
may arise from a number of factors and is in itself a risk factor for thrombosis. The net effect of these factors is assessed in the functional test for APCR and it may be premature therefore to replace functional tests for APCR with DNA analysis alone.
...
PMID:The influence of factor VIII on measurement of activated protein C resistance. 903 55
Activated protein C resistance (APCR) or Factor V Leiden has been recently described as the most prevalent hemostatic abnormality associated with venous thrombosis. In patients with familial thrombophilia, the prevalence of APCR is 19-60% and around 20% in sporadic venous thrombosis. APCR is usually measured by the degree of prolongation of Activated Partial Thromboplastin Time (APTT) on patient's plasma, induced by addition of
APC
in comparison to normal plasma. At the molecular level the defect is caused by a single-point mutation in the gene for
factor V
(FV) (G1.691-->A), that predicts the replacement of Arg506 by Glutamine. This mutation makes activated
factor V
resistant to inactivation by
APC
. Since the prevalence of the defect is highly variable among different populations, the objective of this work was to study its frequency in our population and in patients with thrombophilia. We defined the normal range for APTT ratio (APTT +
APC
/APTT -
APC
) in a group of 73 healthy volunteers in whom the presence of FV Q506 mutation was searched using Mull enzyme digestion of PCR amplified genomic fragment containing the nucleotide 1.691. The lower limit of APTT ratio established in this group was 2.13. APCR was found in 6 out of 159 control subjects (3.8%) and in 14/50 (28%) of patients with thrombosis. In 13 cases as a single defect and in one associated to type I protein C deficiency. All the APCR patients and control subjects were heterozygotes by gene analysis. The results demonstrate that in our population APCR is also the most common defect associated with thrombosis, in accordance with a high prevalence in the population. The ability to screen for this defect will permit the identification of carriers that would benefit of preventive therapy at risk situations.
...
PMID:[Activated C protein resistance: laboratory study and prevalence of the defect in the Chilean population]. 904 21
The recently described point mutation of nucleotide 1691 of the
factor V
gene is responsible for the
factor V
resistance to a cleavage with an activated protein C (
APC
-resistance). Despite the high sensitivity and specificity of the
APC
-resistance test as a screening method for the detection of the
factor V
APC
-resistance, there is still a necessity to develop a simple, cheap and accurate DNA-based assay. Herein, two different ASO-PCR methods were used for the detection of the Leiden mutation. The first involved a direct ASO-PCR with a consensus FV N1 primer and a sequence specific primer for the 1691 bp "G" normal allele (FV G1) or a specific primer for the 1691 bp "A" mutant allele (FV A1). The second method consisted of direct ASO-PCR by using the consensus FV N1 primer and one of two primers with an additional T-->G mismatch at the penultimate position from the 3'-end. One primer was specific for the 1691 bp "G" normal allele (FV G2) and the other was specific for the 1691 bp "A" mutant allele (FV A2). These permit clear and easy distinctions between homozygous normal and heterozygous and homozygous mutant probands. We also tested a T-->A mismatched primer to compare our method with that recently reported by Bellisimo et al. We found that within a large range of PCR conditions, T-->G mismatched oligonucleotides discriminated better than T-->A mismatched between three
factor V
1691 position genotypes. We therefore recommend our method for the screening of a single 1691G-->A nucleotide mutation in the
factor V
gene.
...
PMID:An alternative method for identifying the factor V gene Leiden mutation. 905 84
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