Erwin Coyne scite author profile

Heparin, low molecular weight heparins, and heparinoids were studied for their ability to inhibit the aggregation of platelets by various agonists and for their ability to adhere to collagen. Heparin was a very effective inhibitor of aggregation with collagen and with ristocetin as it was with adhesion to collagen. The heparinoids showed little effect on aggregation or adhesion. Heparan sulfate and pentosan polysulfate did show slight inhibitory activity against collagen aggregation and adhesion and both interacted with the antibody induced by heparin therapy. It is of interest that dermatan sulfate and the pentasaccharide were almost inert in these experiments, and are unlikely to induce bleeding by inhibition of platelet function. It is highly probable that interference with the interaction of von Willebrand factor with platelets and collagen is a major mechanism for bleeding in the heparinized patient.

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Structural basis for the anticoagulant activity of heparin. 1. Relationship to the number of charged groups

Hurst¹,

Menter²,

West³

et al. 1979

Biochemistry

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This study was undertaken to provide further information concerning the chemical heterogeneity of heparins and the relationships between the anticoagulant activity (USP assay) and the anionic density of the heparin. A sample of commercial heparin was fractionated into 13 fractions by sequential extraction in a two-phase system of 1-butanol-aqueous NaCl containing excess hexadecylpyridinium chloride. The anionic density distribution was characterized by the fractional distribution of uronate among the fractions. The fractions were characterized by several molar ratios of constituents, molecular weight, charge density, and anticoagulant activity in recalcified sheep plasma. The heparin was broadly distributed among the last 10 fractions; the first three contained impurities which were completely separated from the heparin fractions. The heparin fractions differ systematically in anionic density but are of substantially the same molecular weight. Anticoagulant activity increased markedly with anionic density, ranging from 81 units/mg for the heparin fraction with the lowest anionic density up to a high of 243 units/mg. The relationship between anticoagulant activity and either anionic density or its square is nonlinear. However, in the latter case an initial linear relationship was observed for anticoagulant activities of less than 200 units/mg.

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Biochemical and Pharmacologic Studies on the Protamine Interactions with Heparin, Its Fractions and Fragments

Racanelli¹,

Fareed²,

Walenga³

et al. 1985

Semin Thromb Hemost

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Generic Low Molecular Weight Heparins: A Significant Dilemma

Fareed¹,

Iqbal²,

Nader³

et al. 2005

Clin Appl Thromb Hemost

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Erwin Coyne

Chemical and Biological Heterogeneity in Low Molecular Weight Heparins: Implications for Clinical Use and Standardization

In Vitro Studies of the Interaction of Heparin, Low Molecular Weight Heparin and Heparinoids with Platelets

Structural basis for the anticoagulant activity of heparin. 1. Relationship to the number of charged groups

Biochemical and Pharmacologic Studies on the Protamine Interactions with Heparin, Its Fractions and Fragments

Generic Low Molecular Weight Heparins: A Significant Dilemma

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