基于罗叶泵的搏动式组织工程培养体系的构建

目的:设计并制作基于心室辅助泵-罗叶泵的搏动式组织工程培养体系,并完成其基本性能测试。方法:根据血管组织工程的需求进行生物反应器的设计,生物反应器主体部分由玻璃构成。启动罗叶泵,调节罗叶泵的输出压力和频率,利用心电监护仪监测生物反应器内流体压力的大小和频率,利用流量计测量其实际流量。结果:生物反应器的主体部分由玻璃制备而成。所组装的培养系统经14d运行无松脱、无渗漏。心电监护仪显示罗叶泵产生的压力波形为脉冲波。当罗叶泵的输出频率固定时,循环管路中的实测压力和流量随罗叶泵输出压力的增加而增加。当罗叶泵的输出压力固定时,循环管路的实测压力和流量随输出频率的增大而增加。结论:本研究所开发的组织工程培养体系稳定性好,可产生脉动刺激,可初步应用于血管组织工程三维培养。通过调节输出压力、频率等参数,可产生不同的流体规律,可用于调节心血管组织工程的微环境。

Design and construction of Luo-Ye pump-based pulsatile tissue engineering culture system

Objective： To design and set up Luo-Ye pump-based pulsatile tissue engineering culture system and complete the basic performance test. Methods： According to the needs of vascular tissue engineering, the bioreactor was designed. The main part of bioreactor is made of glass. Starting and adjusting the output pressure and frequency of Luo-Ye pump for monitoring fluid pressure and frequency by ECG and measure the actual flow by flow meter. Results： The bioreactor is mainly made of glass. The pulsatile system ran no leakage or loosely after 14 days running. The pressure waveform in ECG is pulsatile. If the output frequency is fixed, the pressure and flow in bioreactor have been measured and the flow in bioreactor increased with the increase of pump output pressure. If the output pressure is fixed, the pressure and flow in bioreactor have been measured and the flow in bioreactor increased with the increase of pump output pressure too. Conclusion： Luo-Ye pump-based pulsatile tissue engineering culture system has good stability. It can produce pulsating stimulation and apply in vascular tissue engineering three-dimensional culture. The pulsatile system has different fluids by adjusting the output pressure, frequency and other parameters of Luo Ye pump, and can be used to adjust the microenvironment for cardiovascular tissue engineering.