Birgit Horvath scite author profile

In haemophilia A patients factor VIII (FVIII) recovery and half-life can vary substantially. There are parameters known to modulate FVIII pharmacokinetics (PK), but they explain only about 34% of the variability. The aim of this study was to identify new parameters that influence FVIII PK and thus to expand the current knowledge. FVIII PK were determined in 42 haemophilia A patients (37 severe, 5 moderate) without inhibitor. Patients' characteristics and laboratory parameters were evaluated for an association with FVIII PK. We analysed plasma levels of low-density lipoprotein receptor-related protein 1 (LRP1) and protein C (PC) activity, which had been hypothesized to influence FVIII activity. Furthermore, four variations in intron 6 of the LRP1 gene, which had been shown to influence LRP1, were investigated. FVIII half-life differed widely from 6.2 to 20.7 h, with a median of 10.0 h. Patients with blood group O had shorter FVIII half-life compared to patients with non-O blood group (median FVIII half-life 9.0 h vs. 10.4 h, P = 0.018). Age was significantly associated with FVIII half-life (r = 0.32, P = 0.035). Besides age, also VWF antigen (r = 0.52, P < 0.001) and blood group (r = -0.37, P = 0.015) was associated with FVIII half-life. No correlation was found with FVIII- or LRP1-genotype, LRP1 or PC concentrations. Our data showed large differences in FVIII PK between individual patients and revealed age, blood group and VWF levels as important determining factors for FVIII half-life. FVIII genotype or levels of LRP1 or PC had no influence on FVIII PK.

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Determinants of factor VIII plasma levels in carriers of haemophilia A and in control women

Ay¹,

Thom²,

Abu-Hamdeh³

et al. 2009

Haemophilia

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Factor VIII (FVIII) levels show a considerable variability in female carriers of haemophilia A. Presently, the reasons for this are poorly understood. The aim of the study was to elucidate the influence of genetic and non-genetic parameters on FVIII plasma levels in carriers (n = 42). Results were compared with age-matched healthy women without carriership of haemophilia A (n = 42). Each carrier was tested for the family-specific mutation, ABO blood group, FVIII level, von Willebrand factor (VWF) antigen and activity and C-reactive protein (CRP). FVIII levels were lower in carriers compared to non-carriers [74% (51-103) vs. 142% (109-169), P < 0.001]. No statistically significant differences were observed between the two groups with respect to VWF activity, prothrombin-time, hs-CRP, fibrinogen, body mass index (BMI), age and smoking status as well as the distribution of ABO blood groups. In non-carriers, FVIII was statistically significantly correlated with BMI, activated partial thromboplastin time (APTT), VWF antigen, hs-CRP and fibrinogen. In carriers, significant correlations between FVIII and APTT, VWF antigen and activity were found, whereas BMI, hs-CRP or fibrinogen did not correlate with FVIII. In non-carriers, the association of FVIII with ABO blood groups was statistically significant (P = 0.006), but not in carriers of haemophilia A (P = 0.234). The type of FVIII gene mutation did not influence FVIII levels. Carrier status is the major determinant of a carrier;s FVIII plasma level. Factors known to influence FVIII levels in the general population do not significantly affect FVIII activity in carriers, neither does the type of mutation influence FVIII levels.

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The role of fibrinogen plasma levels, the –455G>A fibrinogen and the factor XIII A subunit (FXIII-A) Val34Leu polymorphism in cancer-associated venous thrombosis

Tiedje¹,

Dunkler²,

Ay³

et al. 2011

Thromb Haemost

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Venous thromboembolism (VTE) is a life-threatening complication in cancer patients. Identification of risk factors has been in focus in the past years. Functional single nucleotide polymorphisms (SNP) of coagulation factors known to influence the concentration or function may be considered to influence the risk of VTE in cancer patients. We evaluated the influence of fibrinogen plasma levels, the -455G>A SNP in the fibrinogen beta gene and the Val34Leu (163G>T) SNP in the factor XIII A-subunit (FXIII-A) gene on the risk of VTE. In 1,079 tumour patients recruited for the prospective Vienna Cancer and Thrombosis Study (CATS) fibrinogen levels were determined by the Clauss method. The FXIII-A Val34Leu and the fibrinogen -455G>A SNPs were tested by allele-specific PCR. The median follow-up time was 604 days, 83 thrombotic events occurred. The median fibrinogen level was 381 mg/dl (25th-75th percentile: 312 to 467). In a multivariable Cox model adjusted to chemotherapy, surgery, radiotherapy, age and sex, neither the fibrinogen concentration (hazard ratio [HR] =1.05, confidence interval [CI] 0.839-1.310 p=0.68), nor the -455G>A SNP (HR=0.77, 95%CI 0.491-1.197; p=0.24), nor the Val34Leu SNP (HR=0.99, 95%CI 0.646-1.542 p=0.99) were associated with occurrence of VTE. The fibrinogen concentration was not significantly different among the fibrinogen -455G or A genotype carriers (p = 0.33). Disseminated intravascular coagulation was observed in only five patients, none of these developed VTE. In conclusion, fibrinogen plasma levels, the fibrinogen -455G>A and the FXIII-A Val34Leu polymorphisms were not associated with VTE in our study.

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Spectrum of causative mutations in patients with haemophilia A in Austria

Reitter

R²,

Horvath³

et al. 2010

Thromb Haemost

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In patients with haemophilia A knowledge of the pathogenetic mutation is important i) as basis for carrier diagnosis and ii) for risk estimation of inhibitor formation. The pathogenetic mutations were identified by testing inversions in intron 1 and 22 (IVS22 and IVS1) and sequencing part of the promoter, the coding region and the exon/intron boundaries in a cohort of Austrian haemophilia A patients. A total of 239 patients from nine participating centres, who had consented to genetic testing and of whom clinical information was available were included in the study. First, IVS22 and IVS1 were tested; in case of absence of either inversion patients were subjected to sequencing. Mutations within the FVIII gene were identified in 234 patients. Notably, 53 mutations had not previously been described in HAMSTeRS. Of our patient cohort, 72.5 % had either an IVS22 or a missense mutation. Interestingly, in three brothers with severe haemophilia, we found a double mutation in exon 14 (missense + small deletion). The spectrum of mutations in Austrian haemophilia A patients was comparable to that found in the German and Italian population; however, it differed from the spectrum reported in the UK. In conclusion, 53 not previously published mutations were identified in Austrian haemophilia A patients. The occurrence of double mutations in the factor VIII gene could be confirmed and their low frequency was corroborated. We speculate that the differences between mutations in Austria and other European countries are due to ethnic diversity. Detailed investigations of the association of ethnicity and the mutation spectrum are planned.

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Identification of an ancient haemophilia A splice site mutation

Reitter-Pfoertner

Haeseler

Horvath

et al. 2012

Thrombosis Research

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Birgit Horvath

Parameters influencing FVIII pharmacokinetics in patients with severe and moderate haemophilia A

Determinants of factor VIII plasma levels in carriers of haemophilia A and in control women

The role of fibrinogen plasma levels, the –455G>A fibrinogen and the factor XIII A subunit (FXIII-A) Val34Leu polymorphism in cancer-associated venous thrombosis

Spectrum of causative mutations in patients with haemophilia A in Austria

Identification of an ancient haemophilia A splice site mutation

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