一种双血流肝机器灌注系统的大鼠模型。

A rat model of dual-flow liver machine perfusion system.

机构信息

Nippon Veterinary and Life Science University - School of Veterinary Nursing and Technology - Tokyo, Japan.

Screen Holdings Co., Ltd. - Innovation Development Department - Tokyo, Japan.

出版信息

Acta Cir Bras. 2023 Oct 30;38:e387723. doi: 10.1590/acb387723. eCollection 2023.

DOI:10.1590/acb387723

PMID:37909599

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10664844/

Abstract

PURPOSE

As clinical liver perfusion systems use portal vein and artery flow, dual perfusion techniques are required even in small animal models in order to reproduce clinical setting. The aim of this study was to construct a new dual-flow perfusion system in rat model and optimized the oxygen supply to ensure the aerobic metabolization.

METHODS

The dual-flow circuit was fabricated using rat liver and whole blood samples as perfusates. The oxygen supply was controlled according to the amount of dissolved oxygen in the perfusate. Perfusate parameters and adenosine triphosphate (ATP) levels were analyzed to evaluate organ function and metabolic energy state. Stored whole blood also tested the suitability as perfusate.

RESULTS

Stored blood showed decrease oxygen delivery and liver function compared to fresh blood. Using fresh blood as perfusate with air only, the dissolved oxygen levels remained low and anaerobic metabolism increased. In contrast, with oxygen control at living body level, anaerobic metabolism was well suppressed, and tissue ATP content was increased.

CONCLUSIONS

We developed a new dual-flow system that enable to reproduce the clinical settings. The perfusion system showed the possibility to improve the energy metabolic state of the perfused organ under appropriate partial pressure of oxygen.

摘要

目的

由于临床肝脏灌注系统使用门静脉和动脉血流，因此即使在小动物模型中，也需要使用双灌注技术，以重现临床环境。本研究旨在构建一种新的大鼠模型双流量灌注系统，并优化氧供应，以确保有氧代谢。

方法

使用大鼠肝脏和全血样本作为灌流液来制造双流量回路。根据灌流液中溶解氧的量来控制氧供应。分析灌流液参数和三磷酸腺苷 (ATP) 水平，以评估器官功能和代谢能量状态。储存的全血也测试了作为灌流液的适用性。

结果

与新鲜血液相比，储存的血液显示出氧输送和肝功能下降。仅使用空气作为灌流液的新鲜血液，溶解氧水平仍然较低，无氧代谢增加。相比之下，通过控制活体内的氧分压，能够很好地抑制无氧代谢，并增加组织 ATP 含量。

结论

我们开发了一种新的双流量系统，可以重现临床环境。该灌注系统显示出在适当的氧分压下改善灌注器官能量代谢状态的可能性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/be73/10664844/c5c48cf0128e/1678-2674-acb-38-e387723-gf01.jpg

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一种双血流肝机器灌注系统的大鼠模型。

A rat model of dual-flow liver machine perfusion system.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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