新生儿心肌细胞低温储存增强

Cell Preservation Technology Pub Date : 2005-04-12 DOI:10.1089/CPT.2005.3.61

K. Snyder, J. Baust, R. Buskirk, J. Baust

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引用次数: 14

摘要

成功的原代细胞低温储存现在被认为是再生医学和研究相关环境中临床应用发展的限速步骤。心脏移植和干细胞心肌成形术需要低温储存才能成功收获/分离并运输到受体。这些过程有时间限制，因此需要在长时间低温后恢复功能齐全的生物制品。尽管多次尝试，延长肌细胞的冷藏间隔，同时保持活力和功能尚未实现。本研究在新生大鼠心室心肌细胞模型(NRVCM)中探讨了几种低温保存策略。通过包括细胞膜完整性、代谢活性和自发收缩功能在内的一系列指标来评估样本的存活率。培养的NRVCM在4℃条件下，在标准培养基中保存24-72 h。

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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Enhanced Hypothermic Storage of Neonatal Cardiomyocytes

Successful hypothermic storage of primary cells is now recognized as a rate-limiting step in the development of clinical applications in regenerative medicine and in research-related settings. Heart transplantation and stem cell cardiomyoplasty require hypothermic storage for successful harvest/isolation and transport to the recipient. These processes are time constrained, thereby necessitating the need to recover fully functional bioproducts following prolonged hypothermia. Despite numerous attempts, extension of the cold storage interval for myocytes while maintaining viability and function has not been realized. In this study, investigation into several strategic approaches to hypothermic preservation was evaluated in the neonatal rat ventricular cardiomyocyte model (NRVCM). Samples were assessed for survival by a panel of indicators including cellular membrane integrity, metabolic activity and spontaneous contractile function. Cultured NRVCM were held at 4°C for 24–72 h in either standard culture medi...

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Cell Preservation Technology

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