七氟醚在缺血/再灌注期间减轻冠状动脉内皮透明质酸的脱落:一项离体动物研究

Congcong Chen, D. Chappell, T. Annecke, P. Conzen, M. Jacob, U. Welsch, B. Zwissler, B. F. Becker
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引用次数: 25

摘要

糖胺聚糖透明质酸(HA)是内皮糖萼的主要成分,有助于维持血管的完整性。用挥发性麻醉剂预处理心脏可防止缺血/再灌注损伤。我们研究了七氟醚对糖萼的保护作用,特别是对HA的保护作用。用七氟醚预缺血处理(2%体积/体积气体15分钟)对HA脱落的影响在28个分离的、跳动的豚鼠心脏中进行了评估,这些心脏经过热缺血(37°C 20分钟)和再灌注(40分钟),一半有七氟醚预处理,一半没有预处理。测定冠状动脉流出液中HA浓度。再灌注后20分钟内持续输注羟乙基淀粉(1 g%), 5分钟内取心外膜渗出液,测定胶体外渗情况。再灌注结束后再灌注固定心脏,进行免疫组织学和电镜观察。七氟醚对缺血后氧化应激没有显著影响,但在整个过程中,甚至在缺血之前,都能强烈抑制HA的脱落。免疫组织学显示,七氟醚也保留了硫酸肝素和糖萼的SDC1。电镜显示缺血引起的糖萼脱落,七氟醚作用下心脏的糖萼基本完整。与对照组相比,七氟醚显著降低了胶体羟乙基淀粉冠状动脉的通透性。我们得出结论,七氟醚的应用可以保护冠状动脉内皮糖萼,特别是HA,维持血管屏障免受缺血性损伤。这可能解释了临床使用挥发性麻醉剂对缺血/再灌注损伤的有益作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sevoflurane mitigates shedding of hyaluronan from the coronary endothelium, also during ischemia/reperfusion: an ex vivo animal study
Glycosaminoglycan hyaluronan (HA), a major constituent of the endothelial glycocalyx, helps to maintain vascular integrity. Preconditioning the heart with volatile anesthetic agents protects against ischemia/reperfusion injury. We investigated a possible protective effect of sevoflurane on the glycocalyx, especially on HA. The effect of pre-ischemic treatment with sevoflurane (15 minutes at 2% vol/vol gas) on shedding of HA was evaluated in 28 isolated, beating guinea pig hearts, subjected to warm ischemia (20 minutes at 37°C) followed by reperfusion (40 minutes), half with and half without preconditioning by sevoflurane. HA concentration was measured in the coronary effluent. Over the last 20 minutes of reperfusion hydroxyethyl starch (1 g%) was continuously infused and the epicardial transudate collected over the last 5 minutes for measuring the colloid extravasation. Additional hearts were fixed by perfusion after the end of reperfusion for immunohistology and electron microscopy. Sevoflurane did not significantly affect post-ischemic oxidative stress, but strongly inhibited shedding of HA during the whole period, surprisingly even prior to ischemia. Immunohistology demonstrated that heparan sulfates and SDC1 of the glycocalyx were also preserved by sevoflurane. Electron microscopy revealed shedding of glycocalyx caused by ischemia and a mostly intact glycocalyx in hearts exposed to sevoflurane. Coronary vascular permeability of the colloid hydroxyethyl starch was significantly decreased by sevoflurane vs the control. We conclude that application of sevoflurane preserves the coronary endothelial glycocalyx, especially HA, sustaining the vascular barrier against ischemic damage. This may explain beneficial effects associated with clinical use of volatile anesthetics against ischemia/reperfusion injury.
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