Sheil A G, Sun J, Mears D C, Waring M, Woodman K, Johnston B, Horvat M, Watson J, Koutalistras N, Wang L
Australian National Liver Transplantation Unit, Royal Prince Alfred Hospital, University of Sydney, Australia.
Int J Artif Organs. 1998 Jan;21(1):43-8.
This study describes biochemical changes in the plasma and blood of pigs with devascularised livers treated in a bioartificial liver support system (BALSS). Porcine hepatic cells were incubated with collagen-coated dextran microspheres (CDM) for 3 hours and the medium tested to determine cellular metabolic activity. Incubation continued for a further 18 hours during which the hepatic cells attach to the CDM. The CDM-attached cells were inoculated into a hollow fibre bioreactor which was part of an extracorporeal support system. Hepatic cell content of the bioreactor was 6 x 10(9) cells. The system was tested in a controlled trial in pigs prepared in a surgical model of fulminant hepatic failure (FHF). When plasma from FHF pigs was circulated through the device containing hepatic cells, there was significantly less increase in the accumulation of ammonia and most amino acids, together with a decrease in plasma lactate and of one amino acid, compared to control experiments when hepatic cells were excluded. We conclude that primary porcine hepatocytes can contribute beneficial metabolic function in a BALSS.
本研究描述了在生物人工肝支持系统(BALSS)中治疗的肝缺血猪的血浆和血液中的生化变化。将猪肝细胞与胶原包被的葡聚糖微球(CDM)孵育3小时,并检测培养基以确定细胞代谢活性。孵育持续18小时,在此期间肝细胞附着于CDM。将附着有CDM的细胞接种到作为体外支持系统一部分的中空纤维生物反应器中。生物反应器中的肝细胞含量为6×10⁹个细胞。该系统在暴发性肝衰竭(FHF)手术模型制备的猪的对照试验中进行了测试。当FHF猪的血浆循环通过含有肝细胞的装置时,与排除肝细胞的对照实验相比,氨和大多数氨基酸的积累增加明显减少,同时血浆乳酸和一种氨基酸减少。我们得出结论,原代猪肝细胞可在BALSS中发挥有益的代谢功能。