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Query: UMLS:C0012739 (
disseminated intravascular coagulation
)
8,673
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A simplified technique using DEAE-cellulose chromatography for the preparation of factor VII deficient substrate was developed in order to reduce the high cost of individual factor VII assay in the routine coagulation laboratory. The substrate prepared from cryo-removed human and bovine plasma had a high correlation (r = 0.9929) with two of the most popular imported commercial substrates available (DADE, Ortho). When compared several other imported commercial substrates of equal quality, the prepared substrate was 3,000 to 6,000 times cheaper. Using the prepared factor VII deficient substrate along with other commercial substrates available, two hundred and fifty patients with malaria (fifty cases of P. vivax and two hundred cases of P. falciparum) were studied for coagulation and fibrinolysis abnormalities. Only P. falciparum infections showed prolonged PT and aPTT which correlated with the degree of parasitemia (r = 0.0972). Factors V, VII, and IX were the most sensitive parameters in the expression of coagulation defects and most coagulation abnormalities were due to liver involvement.
Plasmin
activity was normal in P. vivax patients but it was significantly increased in P. falciparum patients with > 5% parasitemia. Only two of the complicated cases of P. falciparum patients showed the evidence of
DIC
.
...
PMID:A new method for factor VII deficient substrate preparation and coagulation studies in malaria. 788 82
The clinical relevance of determination of plasma antithrombin III(ATIII) and alpha 2-plasmin inhibitor (alpha 2 PI) activities in patients with
disseminated intravascular coagulation
(
DIC
) was analyzed. Although the plasma ATIII activity was decreased in patients with
DIC
, no significant correlation was observed between plasma level of ATIII and that of thrombin-antithrombin III complex or prothrombin fragment 1+2. The extent of the decrease of ATIII in
DIC
was the most marked in cases associated with septicemia. The plasma level of ATIII in septicemia without
DIC
was significantly lower than that in
DIC
cases without septicemia, suggesting that the decrease of ATIII level could not be related to the pathophysiology of
DIC
, but to that of septicemia. The plasma half-life of ATIII in septicemia without
DIC
was significantly shortened in the absence of the increase of TAT level, suggesting that the extravasation of ATIII might be induced probably due to the endothelial damage in septicemia. The alpha 2-
Plasmin
inhibitor level was decreased in
DIC
patients. The decrease was the most marked (lower than 60% of normal) in patients with excessive fibrinolysis in which fibrinogen degradation was induced. The plasma level of alpha 2PI was significantly higher in the
DIC
cases with septicemia than in those without septicemia. The ATIII/alpha 2PI ratio was significantly lower in
DIC
cases with septicemia than in those with solid tumor or acute leukemia. Moreover, the ATIII/alpha 2PI ratio was significantly lower in MOF cases than in non-MOF cases in septicemia. The mortality of the MOF cases did not correlate with the ATIII/alpha 2PI ratio, but with the plasma level of PAI-1, suggesting that the decrease of ATIII/alpha 2PI ratio might not reflect the irreversible endothelial cell damage. Based on these observations, the calculation of ATIII/alpha 2PI in
DIC
patients would provide the following information; (1) a low ATIII/alpha 2PI ratio (less than 0.6) was frequently observed in septicemia, which could be related to the occurrence of organ dysfunction; (2) a high ATIII/alpha 2PI ratio (higher than 1.0) with the marked decrease of alpha 2PI level (lower than 60% of normal) suggests the occurrence of excessive fibrinolysis in which anti-fibrinolytic therapy should be considered when clinical bleeding was present; (3) The ATIII/alpha 2PI ratio near 1.0 was observed in
DIC
associated with the pathological conditions other than described above, such as solid tumors, in which the coagulation and fibrinolysis was almost equally activated.
...
PMID:[Clinical relevance of determination of plasma ATIII and alpha 2 PI activities in patients with DIC--application of the molecular markers for the analysis of pathophysiology of DIC]. 810 83
Beta2-glycoprotein I (beta2GPI) is a plasma glycoprotein with unknown physiological function(s). In in vitro experiments it has been demonstrated that beta2GPI has both anticoagulant properties, such as the inhibition of factor X and prothrombin activation and procoagulant properties, such as the inhibition of the anticoagulant activity of activated protein C. Besides this, beta2GPI bound to cardiolipin is recognized by antiphospholipid antibodies (aPL). In this study we demonstrate that beta2GPI is very sensitive for cleavage between Lys317 and Thr318 by plasmin, resulting in two immunologically different cleaved forms. In vitro experiments show that these plasmin cleaved forms of beta2GPI bind to negatively charged phospholipids with much lower affinity compared to intact beta2GPI. Similar to plasmin, trypsin and elastase can also induce this proteolytical cleavage in beta2GPI, whereas thrombin and factor Xa do not cleave beta2GPI. The in vivo occurrence of the proteolytical cleavage was demonstrated by the finding that in plasmas of patients with
disseminated intravascular coagulation
(
DIC
) and in plasmas of patients treated with streptokinase, significant amounts of cleaved beta2GPI (up to 12 microg/ml) are present. During the development of
DIC
, the increase in levels of cleaved beta2GPI is accompanied by a 70% decrease in the levels of intact beta2GPI, whereas in streptokinase treated patients levels of intact beta2GPI stay within the normal range. This study demonstrates for the first time that during in vivo activation of fibrinolysis beta2GPI is cleaved. which results in the formation of a form of beta2GPI with much lower affinity for negatively charged phospholipids.
Plasmin
is most likely responsible for this modification.
...
PMID:Beta2-glycoprotein I is proteolytically cleaved in vivo upon activation of fibrinolysis. 1034 17
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