期刊
JOURNAL OF BIOTECHNOLOGY
卷 81, 期 2-3, 页码 95-105出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/S0168-1656(00)00233-9
关键词
flat membrane bioreactor; drug biotransformation; ammonia metabolism; pig liver cells; bioartificial liver
The onset of hepatic encephalopathy is a multifactorial process in which endogenous benzodiazepines and hyperammonemia play a pivotal role. The treatment of comatose states in liver failure is one of the major functions of a bioartificial liver. A controlled study demonstrating the capacity of a large scale bioartificial liver to detoxify benzodiazepines could be a crucial prerequisite to break this circle of events leading to coma. The aim of this study was therefore to expose the bioreactor to high levels of benzodiazepines and ammonia for evaluation of its detoxifying capacity. We have developed a novel and unique device reconstructing the plate architecture of the liver. Porcine hepatocytes were co-cultured with non-parenchymal cells. We investigated benzodiazepine metabolism using diazepam as model drug. The bioreactor was also loaded with high levels of ammonia and ammonia clearance as well as urea secretion with ammonia challenge were investigated. Albumin secretion was analysed in parallel as a control viability and tissue specific secretory parameter. The results clearly show that the velocity of diazepam turnover increases between day 1 and 2 and stabilises at high levels. Typical diazepam metabolites including temazepam, N-desmethyl-diazepam and oxazepam were generated. Cell specific functions,including albumin secretion, were comparable to an in vivo liver. We conclude that the Aat membrane bioreactor used as bioartificial liver has the potential to detoxify diazepam and ammonia at significant amounts. Maintenance of monoxygenase activities in vitro is one of the strongholds of the bioreactor concept presented in this study. (C) 2000 Elsevier Science B.V. All rights reserved.
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