COPPE/PEQ, Cell Culture Engineering Laboratory (LECC), Federal University of Rio de Janeiro (UFRJ), Rio de Janeiro, RJ, Brazil.
BioProcess R&D, GE Healthcare Bio-Sciences AB, Uppsala, Sweden.
Biotechnol Bioeng. 2020 Jul;117(7):1915-1928. doi: 10.1002/bit.27335. Epub 2020 Apr 8.
In this study, a hydrocyclone (HC) especially designed for mammalian cell separation was applied for the separation of Chinese hamster ovary cells. The effect of key features on the separation efficiency, such as type of pumphead in the peristaltic feed pump, use of an auxiliary pump to control the perfusate flow rate, and tubing size in the recirculation loop were evaluated in batch separation tests. Based on these preliminary batch tests, the HC was then integrated to 50-L disposable bioreactor bags. Three perfusion runs were performed, including one where perfusion was started from a low-viability late fed-batch culture, and viability was restored. The successive runs allowed optimization of the HC-bag configuration, and cultivations with 20-25 days duration at cell concentrations up to 50 × 10 cells/ml were performed. Separation efficiencies up to 96% were achieved at pressure drops up to 2.5 bar, with no issues of product retention. To our knowledge, this is the first report in literature of high cell densities obtained with a HC integrated to a disposable perfusion bioreactor.
在这项研究中,应用了一种专门设计用于哺乳动物细胞分离的水力旋流器(HC)来分离中国仓鼠卵巢细胞。在分批分离试验中,评估了关键特征对分离效率的影响,如蠕动进料泵中的泵头类型、使用辅助泵来控制灌注液流速以及再循环回路中的管尺寸。基于这些初步的分批试验,然后将 HC 集成到 50-L 一次性生物反应器袋中。进行了三次灌注运行,其中一次是从低活力的晚期补料分批培养物开始灌注,并恢复了活力。连续的运行允许优化 HC-袋配置,并在细胞浓度高达 50×10^6 个/ml 的情况下进行了 20-25 天的培养。在压降高达 2.5 巴的情况下,可达到高达 96%的分离效率,且不存在产品保留的问题。据我们所知,这是文献中首次报道将 HC 与一次性灌注生物反应器集成在一起获得高细胞密度的情况。
