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利用扫描介电谱对CHO灌注培养进行在线生物量监测。

On-line biomass monitoring of CHO perfusion culture with scanning dielectric spectroscopy.

作者信息

Cannizzaro Christopher, Gügerli Raphael, Marison Ian, von Stockar Urs

机构信息

Laboratory of Chemical and Biochemical Engineering, Swiss Federal Institute of Technology (EPFL), CH-1015 Lausanne, Switzerland.

出版信息

Biotechnol Bioeng. 2003 Dec 5;84(5):597-610. doi: 10.1002/bit.10809.

Abstract

In this work, dielectric spectroscopy was used to monitor two CHO perfusion culture experiments (B14 and B16). The capacitance of the cell suspension was recorded every 20 minutes over an excitation frequency range of 0.2 MHz to 10.0 MHz. A phase plot of the capacitance at a low excitation frequency vs. the value at a higher frequency proved to be an accurate indicator of the major transition points of the culture, i.e., maximum cell viability, end of lactate consumption, point of zero viability. For both experiments, the capacitance signal correlated very well (R(2) >0.98) with viable cell number up to concentrations of 1 x 10(7) cells/mL. Visual observation of the capacitance spectra indicated that changes in the capacitance relative to frequency were related to the cellular morphology. A multivariate model was developed using off-line data that could predict the median cell diameter within a single experiment (B14) with an error of 0.34 microm (2%). Upon extension to a subsequent experiment (B16), the predicted error was 1.18 microm (9%).

摘要

在本研究中,介电谱用于监测两个中国仓鼠卵巢细胞(CHO)灌注培养实验(B14和B16)。在0.2 MHz至10.0 MHz的激发频率范围内,每20分钟记录一次细胞悬液的电容。低激发频率下的电容与高频率下的电容值的相位图被证明是培养主要转变点的准确指标,即最大细胞活力、乳酸消耗结束、零活力点。对于这两个实验,电容信号与活细胞数在高达1×10⁷个细胞/mL的浓度范围内具有很好的相关性(R²>0.98)。对电容谱的目视观察表明,电容相对于频率的变化与细胞形态有关。使用离线数据建立了一个多变量模型,该模型可以在单个实验(B14)中预测细胞中位直径,误差为0.34微米(2%)。在扩展到后续实验(B16)时,预测误差为1.18微米(9%)。

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