双相除颤电击优于单相除颤电击,这归因于细胞内钙瞬变异质性较小。
Superiority of biphasic over monophasic defibrillation shocks is attributable to less intracellular calcium transient heterogeneity.
作者信息
Hwang Gyo-Seung, Tang Liang, Joung Boyoung, Morita Norishige, Hayashi Hideki, Karagueuzian Hrayr S, Weiss James N, Lin Shien-Fong, Chen Peng-Sheng
机构信息
Division of Cardiology, Department of Medicine, Cedars-Sinai Medical Center, Los Angeles, California, USA.
出版信息
J Am Coll Cardiol. 2008 Sep 2;52(10):828-35. doi: 10.1016/j.jacc.2008.05.040.
OBJECTIVES
The purpose of this study was to test the hypothesis that superiority of biphasic waveform (BW) over monophasic waveform (MW) defibrillation shocks is attributable to less intracellular calcium (Ca(i)) transient heterogeneity.
BACKGROUND
The mechanism by which BW shocks have a higher defibrillation efficacy than MW shocks remains unclear.
METHODS
We simultaneously mapped epicardial membrane potential (Vm) and Ca(i) during 6-ms MW and 3-ms/3-ms BW shocks in 19 Langendorff-perfused rabbit ventricles. After shock, the percentage of depolarized area was plotted over time. The maximum (peak) post-shock values (VmP and Ca(i)P, respectively) were used to measure heterogeneity. Higher VmP and Ca(i)P imply less heterogeneity.
RESULTS
The defibrillation thresholds for BW and MW shocks were 288 +/- 99 V and 399 +/- 155 V, respectively (p = 0.0005). Successful BW shocks had higher VmP (88 +/- 9%) and Ca(i)P (70 +/- 13%) than unsuccessful MW shocks (VmP 76 +/- 10%, p < 0.001; Ca(i)P 57 +/- 8%, p < 0.001) of the same shock strength. In contrast, for unsuccessful BW and MW shocks of the same shock strengths, the VmP and Ca(i)P were not significantly different. The MW shocks more frequently created regions of low Ca(i) surrounded by regions of high Ca(i) (post-shock Ca(i) sinkholes). The defibrillation threshold for MW and BW shocks became similar after disabling the sarcoplasmic reticulum (SR) with thapsigargin and ryanodine.
CONCLUSIONS
The greater efficacy of BW shocks is directly related to their less heterogeneous effects on shock-induced SR Ca release and Ca(i) transients. Less heterogeneous Ca(i) transients reduces the probability of Ca(i) sinkhole formation, thereby preventing the post-shock reinitiation of ventricular fibrillation.
目的
本研究旨在验证双相波形(BW)除颤电击优于单相波形(MW)除颤电击的假设,其原因是细胞内钙(Ca(i))瞬变异质性较小。
背景
BW电击比MW电击具有更高除颤效果的机制尚不清楚。
方法
我们在19个Langendorff灌注兔心室中,于6毫秒MW电击和3毫秒/3毫秒BW电击期间同时绘制心外膜膜电位(Vm)和Ca(i)。电击后,绘制去极化面积百分比随时间的变化图。电击后最大(峰值)值(分别为VmP和Ca(i)P)用于测量异质性。较高 的VmP和Ca(i)P意味着异质性较小。
结果
BW和MW电击的除颤阈值分别为288±99伏和399±155伏(p = 0.0005)。成功的BW电击比相同电击强度下未成功的MW电击具有更高的VmP(88±9%)和Ca(i)P(70±13%)(VmP 76±10%,p<0.001;Ca(i)P 57±8%,p<0.001)。相比之下,对于相同电击强度下未成功的BW和MW电击,VmP和Ca(i)P无显著差异。MW电击更频繁地产生低Ca(i)区域,周围是高Ca(i)区域(电击后Ca(i)汇)。用毒胡萝卜素和兰尼碱使肌浆网(SR)失活后,MW和BW电击的除颤阈值变得相似。
结论
BW电击的更大效果与其对电击诱导的SR钙释放和Ca(i)瞬变的异质性较小直接相关。较小的异质性Ca(i)瞬变降低了Ca(i)汇形成的概率,从而防止电击后室颤的重新起始。
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