MINIMODULE DIALYZER FOR QUANTITATIVE EXVIVO EVALUATION OF MEMBRANE HEMOCOMPATIBILITY IN HUMANS - COMPARISON OF ACRYLONITRILE COPOLYMER, CUPROPHAN AND POLYSULFONE HOLLOW FIBERS

被引：28

作者：

MULVIHILL, J

CAZENAVE, JP

MAZZUCOTELLI, JP

CROST, T

COLLIER, C

RENAUX, JL

PUSINERI, C

机构：

[1] CTR REG TRANSFUS SANGUINE,INSERM,U311,BIOL & PHARMACOL INTERACT SANG VAISSEAUX & BIOMAT LAB,F-67085 STRASBOURG,FRANCE

[2] HOSPAL,CTR OPERAT TECH,F-69881 MEYZIEU,FRANCE

来源：

BIOMATERIALS | 1992年 / 13卷 / 08期

关键词：

PLATELETS; COAGULATION; COMPLEMENT; BLOOD-SURFACE INTERACTIONS;

D O I：

10.1016/0142-9612(92)90104-V

中图分类号：

R318 [生物医学工程];

学科分类号：

0831 ;

摘要：

Minimodule hollow fibre dialysers, representing clinical dialysis modules on a scale of 1/25, enable quantitative evaluation of the haemocompatibility of hollow fibre membranes in an ex vivo flow system in humans. On line heparinization, adjusted for donor sensitivity, is maintained at a minimal level (approximately 0.14 units/ml). Blood samples collected at the minimodule exit over 30 min are analysed for heparin (anti-Xa activity), activated partial thromboplastin time, fibrinopeptide A, platelet count and beta-thromboglobulin, complement fragment C3a, leucocyte count and polymorphonuclear neutrophil elastase. Initial experiments were performed using well-characterized reference materials: acrylonitrile copolymer (AN 69 HF(R)), polysulphone and cuprophan (CUP(R)). Activation of coagulation and platelets was low for AN 69 HF(R), intermediate for CUP(R) and greatest for polysulphone, while complement activation was negligible in the presence of AN 69 HF(R), moderate for polysulphone and most important for CUP(R). Future applications will be directed towards haemocompatibility screening of prototype membranes with the aim of developing clinical dialysers with improved biocompatibility.

引用

页码：527 / 536

页数：10

共 35 条

[1] HEMODIALYSIS LEUKOPENIA AND COMPLEMENT FUNCTION WITH DIFFERENT DIALYZERS [J].

AMADORI, A ;

CANDI, P ;

SASDELLI, M ;

MASSAI, G ;

FAVILLA, S ;

PASSALEVA, A ;

RICCI, M .

KIDNEY INTERNATIONAL, 1983, 24 (06) :775-781

[2] ASPECTS OF BIOCOMPATIBILITY OF 2 DIFFERENT DIALYSIS MEMBRANES - CUPROPHANE AND POLYSULFONE [J].

AMATO, M ;

SALVADORI, M ;

BERGESIO, F ;

MESSERI, A ;

FILIMBERTI, E ;

MORFINI, M .

INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS, 1988, 11 (03) :175-180

[3] ARTERIAL OXYGENATION DURING HEMODIALYSIS [J].

AURIGEMMA, NM ;

FELDMAN, NT ;

GOTTLIEB, M ;

INGRAM, RH ;

LAZARUS, JM ;

LOWRIE, EG .

NEW ENGLAND JOURNAL OF MEDICINE, 1977, 297 (16) :871-873

[4]

Bosch T, 1987, Contrib Nephrol, V59, P90

[5] SPECIFIC ANTIBODIES ENHANCE SEPHADEX-INDUCED ACTIVATION OF THE ALTERNATIVE COMPLEMENT PATHWAY IN HUMAN-SERUM [J].

CARRENO, MP ;

MAILLET, F ;

LABARRE, D ;

JOZEFOWICZ, M ;

KAZATCHKINE, MD .

BIOMATERIALS, 1988, 9 (06) :514-518

[6] ANAPHYLATOXIN FORMATION DURING HEMODIALYSIS - EFFECTS OF DIFFERENT DIALYZER MEMBRANES [J].

CHENOWETH, DE ;

CHEUNG, AK ;

HENDERSON, LW .

KIDNEY INTERNATIONAL, 1983, 24 (06) :764-769

[7] ACTIVATION OF COMPLEMENT BY HEMODIALYSIS MEMBRANES - POLYACRYLONITRILE BINDS MORE C3A THAN CUPROPHAN [J].

CHEUNG, AK ;

PARKER, CJ ;

WILCOX, LA ;

JANATOVA, J .

KIDNEY INTERNATIONAL, 1990, 37 (04) :1055-1059

[8] ADSORPTION OF UNACTIVATED COMPLEMENT PROTEINS BY HEMODIALYSIS MEMBRANES [J].

CHEUNG, AK .

AMERICAN JOURNAL OF KIDNEY DISEASES, 1989, 14 (06) :472-477

[9]

Colton C K, 1987, Contrib Nephrol, V59, P110

[10] HEMODIALYSIS LEUKOPENIA - PULMONARY VASCULAR LEUKOSTASIS RESULTING FROM COMPLEMENT ACTIVATION BY DIALYZER CELLOPHANE MEMBRANES [J].

CRADDOCK, PR ;

FEHR, J ;

DALMASSO, AP ;

BRIGHAM, KL ;

JACOB, HS .

JOURNAL OF CLINICAL INVESTIGATION, 1977, 59 (05) :879-888

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