从生物体新陈代谢规律出发，通过分析催化酶与各类代谢调节模式的关系建立起人工代谢系统模型。

Artificial metabolic system model was built by analysis for relationship between enzymes and every regulation pattern from the view of biological metabolism law.

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以交通运输网络为例对网络化系统进行了建模分析，利用人工代谢系统的代谢灵敏度折线图对网络支路流量变化进行了分析，得到了故障产生的瓶颈位置。

The situation of traffic flow in network paths was analyzed by metabolic sensitivity curve in artificial metabolic system and the fault bottleneck was gained.

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治疗后，试验对象生命体征稳定，代谢支持作用明显。结果表明：构建的生物人工肝支持系统安全、稳定、有效。

After treatment, life signs of subjects were stable and the metabolic support was obvious, which indicated: the Bioartificial Liver support System which we constructed was safe, stable and efficient.

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