心肌细胞对热漂移的反应:心脏电生理测绘的意义

Cell Preservation Technology Pub Date : 2007-08-01 DOI:10.1089/CPT.2007.9995

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

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引用次数: 5

摘要

冷冻疗法正在成为一种治疗方法，以识别和消融心房和室性心动过速。冷冻疗法利用可逆的中度超低温暂时停止电生理活动，以确定消融的靶区，对非心律失常组织的损害最小。这代表了热疗法的潜在优势。随后对目标细胞施加低于冰点的温度，导致细胞消融并最终纠正心律失常。一项体外研究进行了表征和调查冷冻治疗程序在哺乳动物心脏系统的功效。从新生大鼠中分离哺乳动物心肌细胞，并将其植入组织培养板。样品经历了短暂的(15秒至60秒)温度从60°C到- 20°C的热漂移。在返回正常培养条件(37°C)后，监测细胞代谢活性和收缩反应72 h，并与对照组进行比较。

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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Cardiomyocyte Responses to Thermal Excursions: Implications for Electrophysiological Cardiac Mapping

Cryotherapy is emerging as a treatment method to identify and ablate atrial and ventricular tachyarrhythmias. Cryotherapy utilizes reversible moderate ultra-hypothermic temperatures to transiently halt electrophysiological activity to identify target areas for ablation with minimal damage to the nonarrhythmogenic tissue. This represents a potential advantage over heat-based therapies. Subsequent application of subfreezing temperatures to the targeted cells results in cellular ablation and ultimately correction of the arrhythmia. An in vitro study was performed to characterize and investigate the efficacy of cryotherapy procedures in mammalian cardiac systems. Mammalian cardiomyocytes were isolated from neonatal rats and seeded in tissue culture plates. Samples experienced brief (15 sec to 60 sec) thermal excursions of temperatures ranging from 60°C to −20°C. Upon return to normal culture conditions (37°C), cellular metabolic activity and contractile response were monitored for 72 h and compared to control...

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Cell Preservation Technology

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