在一种新型小鼠Langendorff模型中，钾通道开放剂二氮嗪具有卓越的舒张功能。

Superior diastolic function with K channel opener diazoxide in a novel mouse Langendorff model.

作者信息

Makepeace Carol M, Suarez-Pierre Alejandro, Kanter Evelyn M, Schuessler Richard B, Nichols Colin G, Lawton Jennifer S

机构信息

Division of Cardiothoracic Surgery, Department of Surgery, Washington University School of Medicine, St. Louis, Missouri.

Division of Cardiac Surgery, Department of Surgery, Johns Hopkins University School of Medicine, Baltimore, Maryland.

出版信息

J Surg Res. 2018 Jul;227:186-193. doi: 10.1016/j.jss.2018.02.024. Epub 2018 Mar 22.

DOI:10.1016/j.jss.2018.02.024

PMID:29804852

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6314810/

Abstract

BACKGROUND

Adenosine triphosphate-sensitive potassium (K) channel openers have been found to be cardioprotective in multiple animal models via an unknown mechanism. Mouse models allow genetic manipulation of K channel components for the investigation of this mechanism. Mouse Langendorff models using 30 min of global ischemia are known to induce measurable myocardial infarction and injury. Prolongation of global ischemia in a mouse Langendorff model could allow the determination of the mechanisms involved in K channel opener cardioprotection.

METHODS

Mouse hearts (C57BL/6) underwent baseline perfusion with Krebs-Henseleit buffer (30 min), assessment of function using a left ventricular balloon, delivery of test solution, and prolonged global ischemia (90 min). Hearts underwent reperfusion (30 min) and functional assessment. Coronary flow was measured using an inline probe. Test solutions included were as follows: hyperkalemic cardioplegia alone (CPG, n = 11) or with diazoxide (CPG + DZX, n = 12).

RESULTS

Although the CPG + DZX group had greater percent recovery of developed pressure and coronary flow, this was not statistically significant. Following a mean of 74 min (CPG) and 77 min (CPG + DZX), an additional increase in end-diastolic pressure was noted (plateau), which was significantly higher in the CPG group. Similarly, the end-diastolic pressure (at reperfusion and at the end of experiment) was significantly higher in the CPG group.

CONCLUSIONS

Prolongation of global ischemia demonstrated added benefit when DZX was added to traditional hyperkalemic CPG. This model will allow the investigation of DZX mechanism of cardioprotection following manipulation of targeted K channel components. This model will also allow translation to prolonged ischemic episodes associated with cardiac surgery.

摘要

背景

三磷酸腺苷敏感性钾（K）通道开放剂已被发现在多种动物模型中具有心脏保护作用，但其机制尚不清楚。小鼠模型可对K通道成分进行基因操作，以研究该机制。已知使用30分钟全心缺血的小鼠Langendorff模型会诱发可测量的心肌梗死和损伤。在小鼠Langendorff模型中延长全心缺血时间，可确定K通道开放剂心脏保护作用的相关机制。

方法

小鼠心脏（C57BL/6）先用Krebs-Henseleit缓冲液进行基线灌注（30分钟），使用左心室球囊评估功能，给予测试溶液，然后延长全心缺血时间（90分钟）。心脏进行再灌注（30分钟）并进行功能评估。使用在线探头测量冠状动脉血流。测试溶液包括：单独的高钾停搏液（CPG，n = 11）或与二氮嗪联合使用（CPG + DZX，n = 12）。

结果

虽然CPG + DZX组的舒张期压力和冠状动脉血流恢复百分比更高，但差异无统计学意义。在平均74分钟（CPG组）和77分钟（CPG + DZX组）后，舒张末期压力出现额外升高（平台期），CPG组显著更高。同样，CPG组的舒张末期压力（再灌注时和实验结束时）显著更高。

结论

在传统的高钾CPG中加入DZX时，延长全心缺血时间显示出额外的益处。该模型将有助于研究在操纵靶向K通道成分后DZX的心脏保护机制。该模型还将有助于转化为与心脏手术相关的延长缺血事件的研究。

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