Antithrombogenicity of lumbrokinase­immobilized polyurethane

Authors
Ryu, G.H.Park, S.Kim, M.Han, D.K.Kim, Y.H.Min, B.
Issue Date
1994-01
Citation
Journal of Biomedical Materials Research, v.28, no.9, pp.1069 - 1077
Abstract
Lumbrokinase is a potent fibrinolytic enzyme purified from the earthworm, Lumbricus rubellus. We immobilized 18 IU/cm2 of lumbrokinase to polyurethane using maleic anhydride methylvinyl ether copolymer (MAMEC) as an enzyme carrier, and the proteolytic and fibrinolytic activities of immobilized lumbrokinase were assayed. Immobilized lumbrokinase retained about 34% of its activity, compared with soluble lumbrokinase activity. Immobilized lumbrokinase showed stability against thermal inactivation and degradation and within a various pH range. The optimal pH of immobilized lumbrokinase shifted 1.0 pH unit upward compared with soluble enzyme. Upon exposure to the human whole blood, less amount of 125I­fibrinogen was adsorbed to lumbrokinase­immobilized surface than to the polyurethane control surface. The lumbrokinase­immobilized surface showed less platelet adhesion than did the MAMEC­grafted surface. At the early stage of platelet adhesion, the number of adhered platelets increased on the lumbrokinase­immobilized surface with increasing time; yet, the platelet number drastically decreased on the lumbrokinase­immobilized surface after 80 min incubation. This suggests that lumbrokinase­immobilized polyurethane digested the adsorbed fibrinogen and inhibited platelet adhesion on the surface, probably by inhibiting fibrinogen adsorption to be highly antithrombogenic. Clinical applications of this material to artificial organs should be developed in the near future. ? 1994 John Wiley & Sons, Inc. Copyright ? 1994 John Wiley & Sons, Inc.
Keywords
Adsorption; Biocompatibility; Biodegradation; Blood; Copolymers; Enzyme immobilization; pH effects; Polyurethanes; Surfaces; Antithrombogenicity; Fibrinolytic enzyme; Lumbricus rubellus earthworm; Lumbrokinase; Maleic anhydride methylvinyl ether copolymer; Thermal inactivation; Biomaterials; aprotinin; benzylsulfonyl fluoride; fibrinogen; fibrinolytic agent; iodine 125; leupeptin; lumbrokinase; polyurethan; pyran copolymer; soybean trypsin inhibitor; tranexamic acid; unclassified drug; conference paper; earthworm; enzyme immobilization; enzyme stability; fibrinolysis; human; human cell; ph; protein degradation; thrombocyte adhesion; Adsorption; Endopeptidases; Enzymes, Immobilized; Fibrin; Fibrinolytic Agents; Human; Hydrolysis; Platelet Adhesiveness; Polyurethanes; Proteins; Support, Non-U.S. Gov' t; Adsorption; Biocompatibility; Biodegradation; Blood; Copolymers; Enzyme immobilization; pH effects; Polyurethanes; Surfaces; Antithrombogenicity; Fibrinolytic enzyme; Lumbricus rubellus earthworm; Lumbrokinase; Maleic anhydride methylvinyl ether copolymer; Thermal inactivation; Biomaterials; aprotinin; benzylsulfonyl fluoride; fibrinogen; fibrinolytic agent; iodine 125; leupeptin; lumbrokinase; polyurethan; pyran copolymer; soybean trypsin inhibitor; tranexamic acid; unclassified drug; conference paper; earthworm; enzyme immobilization; enzyme stability; fibrinolysis; human; human cell; ph; protein degradation; thrombocyte adhesion; Adsorption; Endopeptidases; Enzymes, Immobilized; Fibrin; Fibrinolytic Agents; Human; Hydrolysis; Platelet Adhesiveness; Polyurethanes; Proteins; Support, Non-U.S. Gov' t; lumbrokinase immobilized PU; blood compatibility
ISSN
0021-9304
URI
https://pubs.kist.re.kr/handle/201004/145892
DOI
10.1002/jbm.820280912
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