First Department of Surgery, Semmelweis University, Budapest, Hungary.
J Surg Res. 2012 Dec;178(2):797-806. doi: 10.1016/j.jss.2012.06.067. Epub 2012 Jul 28.
Interruption of blood flow can cause ischemic reperfusion injury, which sometimes has a fatal outcome. Recognition of the phenomenon known as reperfusion injury has led to initial interventional approaches to lessen the degree of damage. A number of efficient pharmacologic agents and surgical techniques (e.g., local ischemic preconditioning and postconditioning) are available. A novel, alternative approach to target organ protection is remote ischemic conditioning triggered by brief repetitive ischemia and reperfusion periods in distant organs. Among the different surgical techniques is so-called remote ischemic perconditioning, a method that applies short periods of ischemic reperfusion to a distant organ delivered during target organ ischemia. Although ischemic reperfusion injury is reduced by this technique, the explanation for this phenomenon is still unclear, and approximately only a dozen reports on the topic have appeared in the literature. In our study, therefore, we investigated the connective mechanisms, signal transduction, and effector mechanisms behind remote perconditioning, with a review on molecular background and favorable effects. In addition, we summarize the various treatment protocols and models to promote future experimental and clinical research.
血流中断可导致缺血再灌注损伤,有时会导致致命后果。对再灌注损伤现象的认识导致了最初的介入治疗方法来减轻损伤程度。有许多有效的药物和手术技术(例如局部缺血预处理和后处理)可用。一种针对靶器官保护的新的替代方法是远程缺血预处理,通过在远处器官中短暂重复的缺血和再灌注期触发。在不同的手术技术中,有一种所谓的远程缺血预处理,该方法在靶器官缺血期间将短暂的缺血再灌注期应用于远处器官。尽管这种技术可减少缺血再灌注损伤,但对这一现象的解释仍不清楚,文献中仅出现了大约十几个关于该主题的报告。因此,在我们的研究中,我们研究了远程预处理背后的连接机制、信号转导和效应机制,并对分子背景和有利影响进行了综述。此外,我们总结了各种治疗方案和模型,以促进未来的实验和临床研究。
