一种改进的差示扫描量热法测定生物细胞在冷冻过程中的水运输特性

Cell Preservation Technology Pub Date : 2007-04-23 DOI:10.1089/CPT.2006.9991

Xu Han, D. Luo, X. Cui, S. Heimfeld, D. Gao

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引用次数: 6

摘要

采用改进的差示扫描量热仪(DSC)分析和实验方法测定了人红细胞在冷冻过程中的细胞水转运特性。用DSC法，将含有不同细胞质的人红细胞悬浮液的样品在成核后以慢速冷却(5°C/min)冷却至- 40°C。结果表明，单位质量细胞悬浮液的潜热释放是细胞数目的线性函数，具有与温度相关的斜率和截距。根据理论模型，从相应温度下的斜率和截距计算细胞体积。然后通过对冷冻过程中细胞体积变化的曲线拟合计算细胞的水输运特性(lpg,Ea)。结果表明，在降温速率为5℃/min时，人红细胞的Lpg (Tr = 273.15 K)为0.10±0.01 μm/min, Ea为279.1±0.7 kJ/mol。为了比较，DSC和低温显微…

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A Modified Differential Scanning Calorimetry Method for Determining Water Transport Properties in Biological Cells During the Freezing Process

A modified analytical and experimental method using differential scanning calorimeter (DSC) was applied to determine the cell water transport properties of human erythrocytes during the freezing process. Using DSC, samples containing human erythrocyte cell suspensions of human erythrocytes with different cytocrits were cooled to −40°C at slow cooling rates (5°C/min) after nucleation. It was shown that latent heat release from one unit mass of the cell suspension was a linear function of cytocrits (cell numbers), with a temperature-dependent slope and intercept. Based on the theoretical model, cell volumes were calculated from the slope and intercept at corresponding temperatures. Cell water transport properties (lpg,Ea) were next calculated by curve fitting of the cell volume change during the freezing process. The results revealed that, for human erythrocyte, Lpg (Tr = 273.15 K) is 0.10 ± 0.01 μm/min ċ atm and Ea is 279.1 ± 0.7 kJ/mol at the cooling rate of 5°C/min. For comparison, both DSC and cryomicro...

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Cell Preservation Technology

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