In situ microscopy and MIR-spectroscopy as non-invasive optical sensors for cell cultivation process monitoring

Pharmaceutical bioprocessing Pub Date : 2014-06-04 DOI:10.4155/PBP.14.13

Christian Lüder, P. Lindner, David Bulnes‐Abundis, Shaobin Lu, Tim H. Lücking, D. Solle, T. Scheper

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引用次数: 19

Abstract

Background: The use of modern sensors for online monitoring has become increasingly important in biotechnology. For bioprocess analysis the chemical and physical environment as well as the biological component itself must be monitored in detail and in real-time. Results: Modern non-invasive optical sensors allow reliable predictions of the current process status just in time. Two sensors, one for the biologic and one for monitoring the chemical system of a CHO cell cultivation process, are presented. With an in situ microscope, cell count and morphology are monitored, to assess the efficiency of the cell growth up to a cell concentration of 1.4·107 cells/ml. An infrared sensor was used to analyze glucose concentration profiles. Both sensors can be used as in situ non-invasive sensors. Conclusion: With both sensors, reliable online monitoring of CHO cell cultivation process is feasible that react immediately to changes in process conditions. Higher product quality and more efficient processes can be realized.

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原位显微镜和mir -光谱学作为非侵入性光学传感器用于细胞培养过程监测

背景:利用现代传感器进行在线监测在生物技术中变得越来越重要。为了进行生物过程分析，必须对化学和物理环境以及生物成分本身进行详细和实时的监测。结果:现代非侵入式光学传感器可以及时可靠地预测当前工艺状态。介绍了两种传感器，一种用于生物传感器，另一种用于监测CHO细胞培养过程的化学系统。在原位显微镜下，监测细胞计数和形态，评估细胞生长效率，直至细胞浓度为1.4·107个细胞/ml。红外传感器用于分析葡萄糖浓度谱。这两种传感器都可以用作原位非侵入式传感器。结论:利用这两种传感器，对CHO细胞培养过程进行可靠的在线监测是可行的，可以对工艺条件的变化做出即时反应。可以实现更高的产品质量和更高效的工艺。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Pharmaceutical bioprocessing

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