P. Maisonneuve scite author profile

Coagulation studies were serially performed before and after repeated plasma exchange in seven patients with myashtenia gravis. The fall in platelets and coagulation factor activities after plasmapheresis using a replacement material devoid of clotting factors was not so low that bleeding episodes were to be feared and no hemorrhages were observed. In contrast, thrombotic phenomena were suspected in two patients. Antithrombin III fell to undetectable levels in some cases. This finding associated with elevated values of factor VIII related antigen, factor VIII coagulant activity and von Willebrand factor suggested a potential danger of thrombosis in such treated patients.

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Platelet von Willebrand factor: an important determinant of the bleeding time in type I von Willebrand's disease

Gralnick¹,

Rick²,

McKeown³

et al. 1986

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We studied 17 patients with moderate to mild type I von Willebrand's disease (vWd) and correlated the bleeding time with the plasma von Willebrand factor antigen (vWf Ag), the plasma vWf activity (ristocetin cofactor), the platelet vWf Ag, and the platelet vWf activity. We found an excellent correlation between the bleeding time and the platelet vWf activity and, to a lesser extent, between the bleeding time and the platelet vWf Ag. The length of the bleeding time was inversely proportional to the level of the platelet vWf (P less than .001) or, to a lesser extent, the platelet vWf Ag (P less than .05). The plasma vWf Ag and activity did not correlate significantly with the bleeding time. These studies indicate that the platelet vWf is one of the important bleeding time factors in type I vWd and that the platelet vWf plays an important role in the early steps of hemostasis.

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Von Willebrand's disease with spontaneous platelet aggregation induced by an abnormal plasma von Willebrand factor.

Grainick¹,

Williams²,

McKeown³

et al. 1985

J. Clin. Invest.

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We have investigated and characterized the abnormalities in four unrelated patients with von Willebrand's disease (vWd) who have (a) enhanced ristocetin-induced platelet aggregation (RIPA) at low ristocetin concentrations, (b) absence of the largest plasma von Willebrand factor (vWf) multimers, and (c) thrombocytopenia. The platelet-rich plasma of these patients aggregates spontaneously without the addition of any agonists. When isolated normal platelets are resuspended in patient plasma spontaneous aggregation occurs; however, the patients' plasmas did not induce platelet aggregation of normal washed formalinized platelets. When the patients' platelets are suspended in normal plasma, spontaneous aggregation is not observed. The spontaneous platelet aggregation (SPA) is associated with dense granule secretion as measured by ATP release and alpha granule release as measured by fl-thromboglobulin and platelet factor 4 release.The SPA is totally inhibited by 5 mM EDTA, prostaglandin I2, and dibutryl cyclic AMP, while it is only partially inhibited by 1 mM EDTA, acetylsalicylic acid, or apyrase. A monoclonal antibody directed against glycoprotein Ib (GPIb) and/or a monoclonal antibody against the glycoprotein IIb/IIIa (GPIIb/ IIIa) complex totally inhibits the SPA.The vWf was isolated from the plasma of one of these patients. The purified vWf induced platelet aggregation of normal platelets resuspended in either normal or severe vWd plasma, but the vWf did not induce platelet aggregation of normal platelets resuspended in afibrinognemic plasma. Sialic acid and galactose quantification ofthe patient's vWf revealed approximately a 50% reduction compared with normal vWf. These studies indicate that a form of vWd exists, which is characterized by SPA that is induced by the abnormal plasma vWf. The SPA is dependent on the presence of plasma fibrinogen, and the availability of the GPIb and the GPIIb/IIIa complex. In this variant form of vWd the abnormal vWf causes enhanced RIPA, SPA, and thrombocytopenia.

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In vitro correction of the abnormal multimeric structure of von Willebrand factor in type IIa von Willebrand's disease.

Gralnick¹,

Williams²,

McKeown³

et al. 1985

Proc. Natl. Acad. Sci. U.S.A.

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Type Ha von Willebrand's disease (vWd) has been characterized by the absence of the largest and a reduction in the intermediate-sized multimers of the plasma and platelet von Willebrand factor (vWf) and by the diminished response of the platelet-rich plasma of these patients to ristocetin. Other recently demonstrated abnormalities include the presence of an abnormal triplet structure of vWf. We have studied the plasma and platelets from three patients with this form of vWd and have found that both their plasma and platelets manifest the previously described abnormalities. Because of the heterogeneity of the multimeric structure of the vWf in these patients, we considered the possibility that postsynthetic events may have modified the vWf. When blood was collected in 5 mM EDTA or 5 mM EDTA/leupeptin/N-ethylmaleimide, the abnormal multimeric structure of the plasma and platelet vWf was partially normalized in that the intermediate and the largest vWf multimers were increased, the abnormal multimer structure was no longer as apparent, and the fastest migrating band (an abnormality seen only in the type Ila vWd plasma and platelets) disappeared. The enzymatic activity responsible for this degradation can be classified as a calcium-dependent protease. Studies of normal radiolabeled vWf incubated with platelet lysates from normal subjects and these patients revealed that the patients' platelets did not contain increased amounts of calcium-dependent protease activity as assessed by degradation of normal vWf. These data suggest that patients with type Ha vWd synthesize an abnormal vWf protein that is susceptible to in vitro proteolytic degradation and that proteolytic degradation can play a significant role in the phenotypic expression of vWd by modifying the plasma and platelet vWf multimeric structure. von Willebrand's disease (vWd) has been classified by the pattern of the plasma von Willebrand factor (vWf) multimers on agarose gel electrophoresis and by the response of the patient's platelet-rich plasma (PRP) to ristocetin (1, 2). In particular, the group of type II patients show varied and abnormal electrophoresis patterns of their plasma vWf. These include absence of the largest and/or intermediatesized plasma vWf multimers and alterations in the triplet structure comprising each multimer (1-7). The presence of a triplet structure in normal subjects has suggested that the series of multimers is based on more than a single protomer, which polymerizes to form the various multimers (3, 4). The mechanism responsible for the abnormalities of the multimeric structure in vWd is generally thought to involve decreased or abnormal synthesis or release of vWf from the endothelial cell. The effects of DDAVP infusion on multimeric structure have supported this concept in the type Ila variants (8).We have studied the multimeric organization of the vWf multimers in these patients who fit the category of type Iha vWd. We report our findings, indicating that the abnormalities of the multimeric structure in these patients a...

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P. Maisonneuve

Potential Danger of Thrombosis after Plasma Exchange in the Treatment of Patients with Immune Disease

Platelet von Willebrand factor: an important determinant of the bleeding time in type I von Willebrand's disease

Von Willebrand's disease with spontaneous platelet aggregation induced by an abnormal plasma von Willebrand factor.

In vitro correction of the abnormal multimeric structure of von Willebrand factor in type IIa von Willebrand's disease.

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