Toshiyuki Sakata

Correction of INR by prothrombin complex concentrate and vitamin K in patients with warfarin related hemorrhagic complication

We investigated the effect of prothrombin complex concentrate (PCC, median 500 IU) and vitamin K (10-20 mg) or either on blood coagulation and clinical findings in 17 patients with major hemorrhagic complication during warfarin treatment. Their international normalized ratio (INR) at admission was median 2.7 (2.0-above 10.0). In 11 patients treated with PCC and vitamin K, INR decreased to median 1.13 (0.91-1.36) 10 min after the administration with elevation of plasma levels of coagulant factors II, VII, IX, X and protein C.INR decreased abruptly after the administration of PCC without vitamin K in two patients but it increased again 12-24 h after, with decrease of coagulant factors levels. In one of them, a hematoma of the brain enlarged with INR re-increase 12-24 h after the administration. In four patients treated with vitamin K alone, INR decreased slowly from 2.69 (1.03-3.35) to 1.28 (1.25-1.44) 12-24 h after the administration in parallel with gradual increase of the coagulant factors.PCC administration with or without vitamin K seems to be more effective in rapidly correcting increased INR levels than vitamin K treatment without PCC. PCC without vitamin K may result in re-increase of INR and clinical deterioration.

Activation of Tissue Factor–Induced Coagulation and Endothelial Cell Dysfunction in Non–Insulin-Dependent Diabetic Patients With Microalbuminuria

We studied the relationships between albuminuria, tissue factor-induced coagulation, and endothelial cell dysfunction in 67 patients with non-insulin-dependent diabetes mellitus (NIDDM) who were divided into three groups on the basis of their urinary albumin excretion rate (AER). To assess the early phase of tissue factor-induced coagulation, activated factor VII (FVIIa) levels in plasma were measured by a direct fluorogenic assay. As markers of endothelial cell dysfunction, levels of von Willebrand factor (vWF), tissue-type plasminogen activator-plasminogen activator inhibitor-1 (TPA-PAI-1) complex, PAI-1, and tissue factor pathway inhibitor (TFPI) were measured. FVIIa levels were increased in normoalbuminuric NIDDM patients (AER < 15 micrograms/min) when compared with normal control subjects. This FVIIa increase was accompanied by an increase in thrombin-antithrombin III complex (TAT) levels, indicating increased activation of coagulation even in normoalbuminuric patients. In NIDDM patients with microalbuminuria (AER = 15-200 micrograms/min), the FVIIa level, the FVIIa-FVII antigen (Ag) ratio (an indicator of activation of FVII zymogen to FVIIa), and the TAT level were further increased. This group also had higher levels of endothelial cell-derived factors (vWF, TPA-PAI-1 complex, and PAI-1) than the control group. The levels of endothelial cell-derived factors (including TFPI) were highest in the NIDDM patients with overt albuminuria (AER > 200 micrograms/min). In all 67 diabetic patients, AER showed a strong positive correlation with FVIIa (r = .574, P < .0001) and a weakly but still significant correlation with FVIIa-FVII:Ag (r = .365, P = .01), vWF (r = .315, P < .01), and TAT (r = .323, P < .01).(ABSTRACT TRUNCATED AT 250 WORDS)

Fluorogenic assay of activated factor VII. Plasma factor VIIa levels in relation to arterial cardiovascular diseases in Japanese.

Factor VII (FVII) plays an important role in initiation of the tissue factor-induced coagulation pathway. An increase in FVII coagulant activity (FVIIc) has been proposed as an independent risk factor for coronary artery disease. However, it remains uncertain whether high FVIIc levels are due to an increase in the activation of FVII or an increase in the concentration of FVII mass. We developed a new fluorogenic assay for plasma activated FVII (FVIIa) that used soluble tissue factor. The sensitivity of this assay ranged from 0.2 to 1000 ng FVIIa per milliliter of plasma. Plasma FVIIa levels were measured in 110 healthy subjects and 93 patients with hypertension, diabetes mellitus, and/or cardiovascular disease. The mean plasma FVIIa level in healthy Japanese individuals was 2.5 ng/mL, which was lower than that in Western subjects. Gel filtration analysis showed that most of the circulating FVIIa was in a free form, and binding of FVIIa to tissue factor in plasma was not detected. Aging increased both the FVIIa level and FVII mass, whereas menopause increased mainly the FVII mass. Elderly patients with arterial cardiovascular diseases showed increases in plasma FVIIa levels and FVIIa to FVII antigen (FVII:Ag) ratios. Among the elderly, arterial cardiovascular disease was more common in a high-FVIIa than a low-FVIIa group. Plasma FVIIa levels were not correlated with serum levels of total cholesterol or triglycerides. The FVIIa level and the FVIIa-to-FVII:Ag ratio were positively correlated with fibrinogen level and negatively correlated with body mass index and serum albumin level in the elderly. In conclusion, aging, cardiovascular disease, and malnutrition increased plasma FVIIa levels. FVIIa levels were not correlated with lipid levels or hepatic synthesis, suggesting that FVIIa may be an independent risk factor for cardiovascular disease.

Prevalence of genetic mutations in protein S, protein C and antithrombin genes in Japanese patients with deep vein thrombosis

INTRODUCTION Genetic deficiencies of PROS1, PROC, and SERPINC1 (antithrombin) are risk factors for deep vein thrombosis (DVT). Diagnosis of the inherited deficiencies of these three genes is sometimes difficult because of the phenotypic variability. This study was undertaken to reveal the frequency of nonsynonymous mutations of these three genes in Japanese DVT patients. PATIENTS/METHODS One hundred seventy-three DVT patients were registered by the Sub-group of Blood Coagulation Abnormality, from the Study Group of Research on Measures for Intractable Diseases. We sequenced the entire coding regions of the three genes in all DNA samples and identified the nonsynonymous mutations. RESULTS AND CONCLUSIONS For PROS1 we identified 15 nonsynonymous mutations in 28 DVT patients; for PROC, 10 nonsynonymous mutations in 17 patients; and for SERPINC1, 13 nonsynonymous mutations in 14 patients. Five patients had two mutations in PROS1 and PROC, and all of them had PROS1 K196E mutation. We previously identified one patient with a large PROS1 gene deletion. Thus, 55 out of 173 patients (32%) carried at least one genetic defect in the three genes. The PROS1 K196E mutation found in 15 Japanese DVT patients was the most prevalent. Mutations of PROC K193del and V339M were the second, each found in four patients. Our data suggested that the PROC K193del mutation caused the loss of the anticoagulant activity but not the amidolytic activity. Our effort is the first DNA resequencing study to identify the genetic variations in DVT patients without any consideration of their plasma activities and antigens. To minimize selection bias in a future evaluation of the contribution of genetic deficiency to DVT, we must recruit patients consecutively.

Factor VII Hyperactivity and Endothelial Cell Damage Are Found in Elderly Hypertensives Only When Concomitant With Microalbuminuria

We studied the relationship among albuminuria, factor VII (FVII) hyperactivity, and endothelial cell damage in 6 elderly hypertensive subjects. The plasma levels of activated FVII (FVIIa), FVII coagulant activity, FVII antigen (FVIIag), von Willebrand factor (vWF), and thrombomodulin were measured to assess FVII hyperactivity and endothelial cell damage, and urinary albumin excretion rate (UAE) was calculated using 12-hour nighttime (7 pm to 7 am) urine collection (mean for 2 consecutive nights). We performed 24-hour ambulatory blood pressure monitoring in all 61 hypertensive patients and classified them into a white-coat hypertension group (n=12) and a sustained hypertension group (n=49). For the levels of FVII, vWF, and thrombomodulin, there were no differences between the white-coat hypertension group and normotensive control subjects (n=25). In the sustained hypertensive group, only the microalbuminuric subgroup (UAE, 15 to 300 microgram/min: n=30) showed significant elevation compared with the normotensive group for the level of FVIIa (mean [95% confidence interval]: 4.0 [3.6 to 4.4] versus 3.0 [2.6 to 3.3] ng/mL, P<.001), the FVIIa/FVIIag ratio (an indicator of activation of FVII zymogen to FVIIa) (1.33 [1.19 to 1.50] versus 1.04 [0.92 to 1.19], P<.01), the level of vWF (188 [165 to 214] % versus 144 [129 to 160] %, P<.01), and thrombomodulin (11.7 [10.3 to 13.3] versus 9.3 [8.5 to 10.3] ng/mL, P<.01). In contrast, none of these levels in the normoalbuminuric hypertensive group (UAE <15 microgram/min, n=19) differed from that in the normotensive control group. These results suggest that among elderly hypertensives, only those with microalbuminuria show enhancement of FVII activation and endothelial cell damage, while patients with white-coat hypertension and normoalbuminuric hypertensives do not show these accompanying abnormalities. Thus, increased levels of FVII activity and markers of endothelial cell damage might account for the higher risk of cardiovascular events in essential hypertension with microalbuminuria.

Genetic risk factors for deep vein thrombosis among Japanese : Importance of protein S K196E mutation

There is mounting evidence that mutations associated with a given disease arise with different frequencies among ethnic groups, thus ethnicity-specific studies are needed to identify causative mutations and properly assess risk. In particular, ethnic differences in the genetic background of thrombophilia have been reported. We recently conducted a large-scale analysis of the plasma activities of proteins C, S, antithrombin, and plasminogen within the Japanese general population.We found age-and sex-related differences and estimated the prevalence of deficiencies of protein C (0.13%), antithrombin (0.15%), protein S (1.12%), and plasminogen (4.29%). We also evaluated the genetic contribution to deep vein thrombosis and found that protein S mutation K196E is a genetic risk factor in the Japanese population. We estimated allele frequency to be 0.009, suggesting that 1 of 12,000 Japanese may be homozygous for the E allele, thus possibly as many as 10,000 individuals. Accordingly, a substantial proportion of the Japanese population carries the protein S E allele and is at risk of developing deep vein thrombosis. Given the frequency of this mutation and its strong correlation with deep vein thrombosis, it may be valuable to conduct a large-scale screening for this allele and advise concerned persons to avoid environmental risk factors known to be associated with deep vein thrombosis.

Polymorphisms in vitamin K-dependent γ-carboxylation -related genes influence interindividual variability in plasma protein C and protein S activities in the general population

Abstractγ-Glutamyl carboxylation, a reaction essential for the activity of vitamin K—dependent proteins, requires the concerted actions of γ-glutamyl carboxylase (GGCX), vitamin K 2,3-epoxide reductase complex 1 (VKORC1), and the chaperone calumenin (CALU). We evaluated the contribution of genetic polymorphisms in VKORC1, GGCX, and CALU to interindividual variation in the activities of plasma protein C and protein S. We sequenced these 3 genes in 96 Japanese individuals and genotyped 9 representative single-nucleotide polymorphisms in 3655 Japanese individuals representative of the general population. The mean activity of protein C in women bearing the GG genotype of GGCX 8016G<A (130.8% ± 1.5%, n = 156) was significantly greater (P = .002) than that of individuals with either the AG (126.8% ± 0.7%, n = 728) or the AA (125.4% ± 0.6%, n = 881) genotype, after adjusting for confounding factors. The GGCX 8016G<A change leads to the substitution of Gln for Arg at amino acid residue 325 (Arg325Gln). This effect was comparable to that of a previously defined polymorphism in the protein C promoter. Mean protein S activity was influenced by the VKORC1 3730G<A and CALU 20943T<A genotypes, after adjusting for confounding factors. Thus, polymorphisms in genes involved in the vitamin K—dependent γ-carboxylation reaction influence interindividual variation in the activities of protein C and protein S in the general population.

Prevalence of protein S deficiency in the Japanese general population: The Suita Study

of 16 (44%) antibody-positive patients had adverse events with an allergic/hypersensitivity component at sometime during the study. Five of 100 antibody-negative patients experienced drugrelated adverse events with an allergic/hypersensitivity component; however, none of the 16 antibody positive patients experienced such drug-related adverse events. Antibody responses were not associated temporally with allergic or hypersensitivity drug-related adverse events. Ingerslev et al. examined serum samples collected from PTPs and PUPs treated with Recombinate for antibodies to trace heterologous proteins [1]. These investigators reported antibody reactivity following treatment with rFVIII to Chinese hamster ovary protein, bovine serum albumin, andmurine IgG in PUPs (25%, 37%, 41%, respectively) and PTPs (4.4%, 8%, and 7%, respectively). As in the current study, these investigators found no association between the development of these antibodies and adverse events. These data indicate that a small number of naive patients treated with a recombinant preparation may be susceptible to development of antibodies to residual trace proteins, but these antibodies have no clinical effect. Patients with inhibitors may have an increased propensity to develop antibodies in general, as they appeared to have a higher incidence of antibody development to trace mammalian proteins than did patients that did not develop an inhibitor on study.

Protein C and antithrombin deficiency are important risk factors for deep vein thrombosis in Japanese

However, a second report showed that this association was valid in females, but not in males [5]. We also did not observe any positive association in our male subjects. Thus, in Japanese male subjects, MMP-3 5A/6A does not seem to predict the incidence of MI. In females, it is possible that we did not observe any positive association, at least partially, due to the relatively small number of female patients with MI, and further investigations may be needed. Several association studies and meta-analyses have investigated the association between the MTHFR gene and an increased risk of MI [6]. In the Japanese population, Yamada et al. did not find an association between MTHFR C677T and the incidence of MI [5]. Considering these and our present results, it is unlikely that MTHFR C677T is associated with an increased risk of MI in Japanese.

Population‐based distribution of plasminogen activity and estimated prevalence and relevance to thrombotic diseases of plasminogen deficiency in Japanese: the Suita Study

Summary.  Reduced plasminogen activity with a normal level of antigen is commonly observed in Japanese individuals. The first reported patient with plasminogen deficiency was accompanied with deep vein thrombosis. The present study examines whether heterozygous or homozygous deficiency of plasminogen is a risk factor for thrombotic disease. This study measures the plasminogen activity of 4517 individuals in the general population, determines the cut‐off to define plasminogen deficiency, and identifies plasminogen deficiencies in the control groups and thrombotic disease groups. In another study, we examined the phenotypes of consecutive patients with homozygous plasminogen deficiency detected in our hospital. We found 173 and two of 4517 individuals to have heterozygous and homozygous deficiency with normal plasminogen antigen level, respectively, and 19 to have heterozygous deficiency with reduced antigen levels. The incidence of plasminogen deficiency in an age‐ and sex‐matched control group (13/324, 4.01% for deep vein thrombosis or 13/330, 3.94% for stroke) selected from the 4517 individuals was not significantly different from those in patients with deep vein thrombosis (3/108, 2.78%) or cardioembolic stroke (6/110, 5.55%). Among 19 patients with homozygous plasminogen deficiency showing about 10% plasminogen activity, none had deep vein thrombosis. These findings indicate that neither heterozygous nor homozygous plasminogen deficiency constitutes a significant risk factor for thrombotic disease.