Kumiaki Nishimura scite author profile

Kumiaki Nishimura

2Publications

20Citation Statements Received

26Citation Statements Given

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Affiliations

Asahi Chemical & Industry (Japan)

Publications

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Platelet Adhesion, Contact Phase Coagulation Activation, and C5a Generation of Polyethylene Glycol Acid‐Grafted High Flux Cellulosic Membrane with Varieties of Grafting Amounts

et al. 1998

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Grafting of polyethylene glycol chains onto cellulosic membrane can be expected to reduce the interaction between blood (plasma protein and cells) and the membrane surface. Alkylether carboxylic acid (PEG acid) grafted high flux cellulosic membranes for hemodialysis, in which the polyethylene glycol chain bears an alkyl group at one side and a carboxyl group at the other side, have been developed and evaluated. PEG acid-grafted high flux cellulosic membranes with various grafting amounts have been compared with respect to platelet adhesion, the contact phase of blood coagulation, and complement activation in vitro. A new method of quantitating platelet adhesion on hollow-fiber membrane surfaces has been developed, which is based on the determination of lactate dehydrogenase (LDH) activity after lysis of the adhered platelets. PEG acid-grafted high flux cellulosic membranes showed reduced platelet adhesion and complement activation effects in grafting amounts of 200 ppm or higher without detecting adverse effects up to grafting amounts of 850 ppm. The platelet adhesion of a PEG acid-grafted cellulosic membrane depends on both the flux and grafting amounts of the membrane. It is concluded that the grafting of PEG acid onto a cellulosic membrane improves its biocompatibility as evaluated in terms of platelet adhesion, complement activation, and thrombogenicity.

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Relaxation of isolated rabbit mesenteric artery by N4-substituted quinazoline derivatives

Sugihara¹,

Asano²,

Nishimura³

et al. 1981

Japanese Journal of Pharmacology

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