Development of a Novel Electromagnetic Rewarming Technology for the Cryopreservation of Stem Cells with Large Volume

Shen Ren, Z. Shu, Jiaji Pan, Ji Peng, Junlan Wang, Chunhua Zhao, D. Gao
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引用次数: 2

Abstract

Applications of stem cells have been playing significant roles in scientific and clinical settings in the last few decades. The foundation of these approaches is successful cryopreservation of stem cells for future use. However, so far we can only cryopreserve stem cell suspension of small volumes in the order of 1 mL mostly due to the lack of an effective rewarming technique. Rapid and uniform rewarming has been approved to be beneficial, and sometimes, indispensable for the survival of cryopreserved stem cells, inhibiting ice recrystallization or devitrification. Unfortunately, the conventional water bath thawing method failed in providing the rapid and uniform rewarming. The conversion of electromagnetic (EM) energy into heat provides a possible solution to this problem. This chapter will focus on (1) analysis of the combined EM and heat transfer phenomenon in the rewarming of a biospecimen, (2) numerical investigation of the rewarming system, (3) practical setup of an EM resonance system, and (4) test of heating performance with large volume of cells.
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大体积干细胞低温保存的电磁复温新技术的发展
在过去的几十年里,干细胞的应用在科学和临床环境中发挥了重要作用。这些方法的基础是成功冷冻保存干细胞以备将来使用。然而,由于缺乏有效的复温技术,到目前为止,我们只能低温保存1ml左右的小体积干细胞悬浮液。快速和均匀的再加热已被证实是有益的,有时对冷冻保存的干细胞的存活是必不可少的,可以抑制冰重结晶或脱氮。遗憾的是,传统的水浴解冻方法不能提供快速和均匀的复温。将电磁能转化为热能为这个问题提供了一个可能的解决方案。本章将着重于(1)分析生物标本再加热过程中电磁与传热的结合现象,(2)再加热系统的数值研究,(3)电磁共振系统的实际设置,以及(4)大体积细胞的加热性能测试。
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