Stathopoulos N A, Hellums J D
Biomedical Engineering Laboratory, Rice University, Houston, Texas 77005, USA.
Biotechnol Bioeng. 1985 Jul;27(7):1021-6. doi: 10.1002/bit.260270713.
Human embryonic kidney cells grown as an attached, confluent monolayer on a flat substrate were subjected to steady, uniform laminar flow of medium in a specially designed chamber in which flow patterns and shear stress are accurately defined and controlled. Experiments were performed for shear stress levels ranging from 0.2 to 6.0 N/m(2) with times of exposure to the shear stress ranging from 2 to 24 h. The influence of the shear field was slight at low shear stress (0.26 N/m(2)). Higher stress levels (0.65 N/m(2) and higher) had significant effects on cell morphology, and on the post-shear release of urokinase enzyme. Still higher stress levels (2.6 N/m(2) and higher) caused marked reduction in cell viability. These results may be of interest in addressing practical problems in developing commercial biosynthesis reactors.
将人胚胎肾细胞在平坦基质上培养成附着的汇合单层,然后在一个经过特殊设计的腔室中,使其受到稳定、均匀的层流培养基的作用,在该腔室中,流动模式和剪切应力得到精确界定和控制。实验针对剪切应力水平在0.2至6.0 N/m²范围内进行,暴露于剪切应力的时间范围为2至24小时。在低剪切应力(0.26 N/m²)下,剪切场的影响较小。较高的应力水平(0.65 N/m²及以上)对细胞形态以及剪切后尿激酶的释放有显著影响。更高的应力水平(2.6 N/m²及以上)导致细胞活力明显降低。这些结果对于解决商业生物合成反应器开发中的实际问题可能具有重要意义。
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