D. Westphal scite author profile

The effects of centrifugal pumps on blood components other than erythrocytes, namely platelets and their interaction with the coagulation system, are not very well known. In a comparative study with three centrifugal pumps (BioMedicus BP-80, St. Jude Isoflow, and Sarns Delphin) and the Stockert roller pump hemolysis, platelet counts, thromboplastin and partial thromboplastin times, as well as resonance thrombography (RTG) parameters for the assessment of platelet and coagulation function were evaluated in vitro. Normalized indices of hemolysis (NIH) with ACD anticoagulation after 360 minutes were 0.008+/-0.004 (Isoflow), 0.018+/-0.017 (BP-80), 0.085+/-0.051 (Delphin), and 0.049+/-0.010 g/1001 (roller pump). Plasmatic coagulation was activated in all circuits. Platelet function was severely inhibited by the BP-80, indicated by increase in RTG platelet time to 358%+/-150% of initial values compared to 42%+/-29% (Isoflow), 40%+/-20% (Delphin), and 12%+/-10% (roller pump). Fibrin polymerization was affected similarly. The large surface area of the BP-80 leads to an extensive activation of platelets and plasminogen.

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Estimation of turbulent shear stresses in pulsatile flow immediately downstream of two artificial aortic valves in vitro

Nygaard

Giersiepen

Hasenkam

et al. 1990

Journal of Biomechanics

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Biological and Chemical Behavior of Perhalogenmethylmercapto Fungicides: Metabolism and in Vitro Reactions of Dichlofluanid in Comparison with Captan

Schuphan¹,

Westphal

Haque³

et al. 1981

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In vitro stress measurements in the vicinity of six mechanical aortic valves using hot-film anemometry in steady flow

Hasenkam

Westphal

Nygaard³

et al. 1988

Journal of Biomechanics

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D. Westphal

Two-dimensional color-mapping of turbulent shear stress distribution downstream of two aortic bioprosthetic valves in vitro

Platelet Function and Hemolysis in Centrifugal Pumps: In Vitro Investigations

Estimation of turbulent shear stresses in pulsatile flow immediately downstream of two artificial aortic valves in vitro

Biological and Chemical Behavior of Perhalogenmethylmercapto Fungicides: Metabolism and in Vitro Reactions of Dichlofluanid in Comparison with Captan

In vitro stress measurements in the vicinity of six mechanical aortic valves using hot-film anemometry in steady flow

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