Establishment of rat model of organ injury caused by cardiopulmonary bypass
10.11659/jjssx.11E015166
- VernacularTitle:大鼠体外循环脏器损伤模型的建立
- Author:
Zongjie LI
;
Kai LIU
;
Demin LI
- Publication Type:Journal Article
- Keywords:
cardiopulmonary bypass;
organ injury;
rat;
model
- From:
Journal of Regional Anatomy and Operative Surgery
2016;(2):79-82,83
- CountryChina
- Language:Chinese
-
Abstract:
Objective A easier and faster rat model of organ injury caused by cardiopulmonary bypass was developed to provide a stable and economical experimental platform for the research of CPB ( cardiopulmonary bypass ) .Methods Twenty male Sprague-Dawley rats weight between (288.8 ±26.1)g were randomly divided into sham group and CPB group .The right external jugular vein and bilateral femoral arteries were punctured in sham group ,while the rats in CPB group underwent 60 minutes cardiopulmoanry bypass with the perfusion flow no less than 120 mL· kg-1· min-1 .And the weight ,blood pressure ,blood gas and electrolytes were monitored and analyzed throughout the experi -ment.The serum,lung,liver and kidney were collected at 72 h after the operation for further detection .Results The rat model of cardiopul-monary bypass was established successfully with 90%survival rate .The changes of blood gas during intraoperative and postoperative were in accordance with clinical reality and the injury of lung ,liver and kidney were confirmed by serum results and pathological changes .Conclu-sion The model has the characteristics of lower weight ,less priming solution ,no need for endotracheal intubation and easier to assemble the bypass line ,furthermore the methods of puncture and CPB were exhibited through a large number of pictures .As a consequence ,the difficul-ties of establishing the rat model of CPB were reduced significantly .The changes of pathophysiology during intraoperative and postoperative were similar to clinical realities ,the survival rate and organ injury were satisfactory .So it can be used as an effective tool for the research of organ injury and the evaluation of therapeutic strategies associated with CPB .
