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在旋转式容积泵中模拟剪切诱导的 CHO 细胞损伤。

Modeling shear-induced CHO cell damage in a rotary positive displacement pump.

机构信息

Dept. of Chemical Engineering, Villanova University, Villanova, PA 19085, USA.

出版信息

Biotechnol Prog. 2010 Nov-Dec;26(6):1606-15. doi: 10.1002/btpr.479.

Abstract

Rotary lobe pumps are commonly used in the biotechnology industry for a variety of purposes. Shear damage to animal cells within the rotary lobe pump can adversely affect the product yield or purity during, for example, cell concentration via cross-flow filtration. In this research, CHO cells grown in 20-L bioreactors were fed to a rotary lobe pump in both single pass and recycle experiments were conducted at different RPMs and "slip" conditions. The results indicate that the slip flow rate more severely impacts the viability of the CHO cells than the pump RPM. A novel mathematical modeling approach is presented that predicts shear rates in all of the positive displacement pump's slip regions, and then predicts cell death vs. operating conditions. This model accounts for the complex flow situation that results from changes to RPM, backpressure and pump geometry (i.e., clearances).

摘要

旋转叶片泵在生物技术行业中被广泛用于各种目的。在例如通过错流过滤进行细胞浓缩的过程中,旋转叶片泵内的动物细胞的剪切损伤会对产品产量或纯度产生不利影响。在这项研究中,在 20-L 生物反应器中生长的 CHO 细胞被输送到旋转叶片泵中,在不同的 RPM 和“滑移”条件下进行了单程和循环实验。结果表明,滑移流速比泵 RPM 更严重地影响 CHO 细胞的活力。提出了一种新的数学建模方法,该方法可预测所有正排量泵的滑移区域的剪切速率,然后预测细胞死亡与操作条件的关系。该模型考虑了由于 RPM、背压和泵几何形状(即间隙)的变化而导致的复杂流动情况。

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