心脏组织工程瓣脉动流培养系统的设计与构建

自行设计和制造平面和三维立体培养室及贮液室等构件,用医用硅胶管连接;转子泵作为动力源,贮液室通气口供给5%CO2 95%空气,恒温水浴箱保持构件37℃恒温,这样组成了种植细胞与生物瓣支架复合体的脉动培养系统,并进行生物力学和生物相容性测试,为心脏组织工程瓣的体外构建提供研究器材。结果显示,该装置密闭性能好,内环境能保持37±1℃、CO2浓度5%±1%、pH值6.8～7.5;流量在0.125～6.0L/min的范围内任意调节;同种瓣膜上的内皮细胞经2周培养后扩增约10倍;瓣膜支架的细菌和霉菌培养均为阴性,说明我们构建的脉动流培养系统能有效地模拟体内脉动流场实现种植细胞在体外的增殖、重塑,为心脏组织工程瓣的体外构建提供了一种新的实验方法。

Design and Construction of Pulsatile-flow-cultivation System for the Tissue Engineering Heart Valve

A plane, three-dimensional chamber of pulsatile-flow-cultivation and the liquid store chamber connected by medical silica gel tube were designed and constructed by ourselves according to the design principle. The rotator pump of cardiopulmonary bypass unit was acted as the power source. The mixed gas containing 5% CO2 and 95% air was supplied through the ventilation orifice of the liquid store chamber. The temperature of these components was stabilized by thermostatic waterbath. The test of biomechanics and biological compatibility for the system was carried out by cultures experiment during two weeks. The results of the experiment showed that there was no leak in the pulsatile-flow-cultivation components in which the concentration of CO2 was controlled about 5%+1%, the temperature at 37 +/- 1 degree C, and the value of pH between 6.8 and 7.5. The flow rate of the system could be adjusted exactly between 0.125 L/min and 6.0 L/min. The endothelial cells on the viable homograft valve increased about 10 times after being cultured for 2 weeks. The cultures of cell and mould taken from the leaf and Dacron cloth of homograft valve were reported to be negative. The results of the experiment demonstrated that there was satisfactory homeostasis of these components in effective modeling pulsatile-flow-field for the implantation cells cultured, proliferated, and remodeled under the condition inferior or superior to physiological level in vitro. The system can meet the need for study of pulsatile-flow-cultivation and tissueengineering heart valve constructed in vitro.