暴露于固体表面冻结和玻璃化的液滴的冷却动力学。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-03-04 DOI:10.1016/j.cryobiol.2024.104879
Dejia Liu , Harriëtte Oldenhof , Xing Luo , Tobias Braun , Harald Sieme , Willem F. Wolkers
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引用次数: 0

摘要

固体表面冷冻或玻璃化(SSF/SSV)可通过将样品(如保存溶液中的细胞)液滴沉积到预冷的金属表面来实现。与将样品浸泡在液氮中相比,它可以实现更高的冷却速率和更高的低温存活率。在这项研究中,通过对低温保护剂(CPA)溶液液滴的冷却动力学建模,对 SSF/SSV 进行了数值模拟。假设沉积的液滴底部为圆柱形,上部为半椭圆形。用于传热模拟的材料属性包括密度、热容量和热导率,这些属性来自文献,并使用多项式拟合进行推断。模拟了不同 CPA 质量分数的 CPA 类型(即甘油(GLY)和二甲基亚砜(DMSO))、CPA 浓度和液滴大小对冷却动力学的影响,温度范围为 -196 至 25 °C。模拟结果表明,与 DMSO 溶液相比,甘油溶液的冷却速度更快,而且冷却速度随着 CPA 浓度的降低而增加。不过,我们注意到,甘油和二甲基亚砜溶液的材料特性数据是在不同条件下的不同温度和浓度范围内获得的,因此难以进行准确比较。实验研究表明,冷冻样品在早期会出现延迟冷却反应,而平衡时间与玻璃化样品相似。最后,作为概念验证,使用 SSV/SSF 对人类红细胞(RBC)液滴进行了冷冻保存,比较了 GLY 和 DMSO 对冷冻保存结果的影响。在 20%(w/w)的溶血率下,GLY 和 DMSO 的溶血率相似,而在 40% 的溶血率下,GLY 的效果优于 DMSO。
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Cooling dynamics of droplets exposed to solid surface freezing and vitrification

Solid surface freezing or vitrification (SSF/SSV) can be done by depositing droplets of a sample, e.g., cells in a preservation solution, onto a pre-cooled metal surface. It is used to achieve higher cooling rates and concomitant higher cryosurvival rates compared to immersion of samples into liquid nitrogen. In this study, numerical simulations of SSF/SSV were conducted by modeling the cooling dynamics of droplets of cryoprotective agent (CPA) solutions. It was assumed that deposited droplets attain a cylindrical bottom part and half-ellipsoidal shaped upper part. Material properties for heat transfer simulations including density, heat capacity and thermal conductivity were obtained from the literature and extrapolated using polynomial fitting. The impact of CPA type, i.e., glycerol (GLY) and dimethyl sulfoxide (DMSO), CPA concentration, and droplet size on the cooling dynamics was simulated at different CPA mass fractions at temperatures ranging from −196 to 25 °C. Simulations show that glycerol solutions cool faster compared to DMSO solutions, and cooling rates increase with decreasing CPA concentration. However, we note that material property data for GLY and DMSO solutions were obtained in different temperature and concentration ranges under different conditions, which complicated making an accurate comparison. Experimental studies show that samples that freeze have a delayed cooling response early on, whereas equilibration times are similar compared to samples that vitrify. Finally, as proof of concept, droplets of human red blood cells (RBCs) were cryopreserved using SSV/SSF comparing the effect of GLY and DMSO on cryopreservation outcome. At 20% (w/w), similar hemolysis rates were found for GLY and DMSO, whereas at 40%, GLY outperformed DMSO.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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