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A Dynamical Threshold for Cardiac Delayed Afterdepolarization-Mediated Triggered Activity

机译:心脏延迟去极化介导的触发活动的动态阈值。

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摘要

Ventricular myocytes are excitable cells whose voltage threshold for action potential (AP) excitation is ∼−60 mV at which INa is activated to give rise to a fast upstroke. Therefore, for a short stimulus pulse to elicit an AP, a stronger stimulus is needed if the resting potential lies further away from the INa threshold, such as in hypokalemia. However, for an AP elicited by a long duration stimulus or a diastolic spontaneous calcium release, we observed that the stimulus needed was lower in hypokalemia than in normokalemia in both computer simulations and experiments of rabbit ventricular myocytes. This observation provides insight into why hypokalemia promotes calcium-mediated triggered activity, despite the resting potential lying further away from the INa threshold. To understand the underlying mechanisms, we performed bifurcation analyses and demonstrated that there is a dynamical threshold, resulting from a saddle-node bifurcation mainly determined by IK1 and INCX. This threshold is close to the voltage at which IK1 is maximum, and lower than the INa threshold. After exceeding this dynamical threshold, the membrane voltage will automatically depolarize above the INa threshold due to the large negative slope of the IK1-V curve. This dynamical threshold becomes much lower in hypokalemia, especially with respect to calcium, as predicted by our theory. Because of the saddle-node bifurcation, the system can automatically depolarize even in the absence of INa to voltages higher than the ICa,L threshold, allowing for triggered APs in single myocytes with complete INa block. However, because INa is important for AP propagation in tissue, blocking INa can still suppress premature ventricular excitations in cardiac tissue caused by calcium-mediated triggered activity. This suppression is more effective in normokalemia than in hypokalemia due to the difference in dynamical thresholds.
机译:心室肌细胞是可兴奋细胞,其动作电位(AP)激发的电压阈值约为-60 mV,在该电压下INa被激活以引起快速上冲。因此,对于较短的刺激脉冲以诱发AP,如果静息电位离INa阈值较远,例如在低钾血症中,则需要更强的刺激。但是,对于由长期刺激或舒张性自发钙释放引起的AP,我们观察到,在低钾血症中,所需的刺激比正常钾血症中的低,在计算机模拟和兔心室肌细胞实验中均低于。尽管静息电位距离INa阈值较远,但这一发现为低钾血症为何促进钙介导的触发活动提供了见解。为了了解潜在的机制,我们进行了分叉分析并证明存在动态阈值,该阈值是由主要由IK1和INCX确定的鞍形节点分叉引起的。该阈值接近IK1最大的电压,并且低于INa阈值。超过此动态阈值后,由于IK1-V曲线的负斜率较大,膜电压将自动在INa阈值以上进行去极化。正如我们的理论所预测的那样,在低钾血症中,尤其是对于钙而言,该动态阈值变得更低。由于鞍节点分叉,即使在没有INa的情况下,系统也可以自动去极化至高于ICa,L阈值的电压,从而允许具有完整INa阻滞的单个肌细胞触发AP。但是,由于INa对于AP在组织中的传播很重要,因此阻断INa仍可以抑制由钙介导的触发活动引起的心脏组织过早的心室兴奋。由于动力学阈值的差异,这种抑制在正常血钾症中比在低血钾症中更有效。

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