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Abstract
Background: HepG2/(ArgI+OTC)4 (previously constructed) is a recombinant human liver cell line with a strong ability to reduce ammonia in vitro. However, its application value ex vivo has not been investigated.
Objectives: To examine the efficacy of HepG2/(ArgI+OTC)4 cells in a micro-bioartificial liver (micro-BAL) device for application ex vivo.
Methods: A simple micro-BAL device containing a microbioreactor and a small-type peristaltic pump was installed. The rats with hepatic failure were randomly divided into three groups (n = 10) and were treated with different micro-BAL loaded HepG2/(ArgI+OTC)4 cells, HepG2 cells and control (without cells), respectively. Changes in the liver and kidney function of the rats were determined before and after the treatment. The lifespan of the rats were observed and recorded.
Results: Despite the difference in survival time between experimental groups of rat model was not statistically significant, the capacity of HepG2/(ArgI+OTC)4 cells treatment group for tolerance and detoxifying ammonia was increased much more than that of HepG2 cells (p < 0.05), and other biochemical indicators of HepG2/(ArgI+OTC)4 cells treatment group were also better than that of HepG2 cells treatment group (p < 0.05).
Conclusions: HepG2/(ArgI+OTC)4 cells can provide a better biological support for rats with hepatic failure in a short period of time, and they may be used as a convenient and useful choice for further cell material research of BAL.