How early (EADs) and delayed afterdepolarizations (DADs) overcome electrotonic source-sink mismatches in tissue to trigger premature ventricular complexes remains incompletely understood. To study this question, we used a rabbit ventricular action potential model to simulate tissues in which a central area of contiguous myocytes susceptible to EADs or DADs was surrounded by unsusceptible tissue. In 1D tissue with normal longitudinal conduction velocity (0.55 m/s), the numbers of contiguous susceptible myocytes required for an EAD and a barely suprathreshold DAD to trigger a propagating action potential were 70 and 80, respectively. In 2D tissue, these numbers increased to 6940 and 7854, and in 3D tissue to 696,910 and 817,280. These numbers were significantly decreased by reduced gap junction conductance, simulated fibrosis, reduced repolarization reserve and heart failure electrical remodeling. In conclusion, the source-sink mismatch in well-coupled cardiac tissue powerfully protects the heart from arrhythmias due to sporadic afterdepolarizations. Structural and electrophysiological remodeling decrease these numbers significantly but still require synchronization mechanisms for EADs and DADs to overcome the robust protective effects of source-sink mismatch.
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机译:早期(EADs)和延迟的去极化后(DADs)如何克服组织中的电声源-吸收器失配以触发过早的心室复合物,目前尚不完全清楚。为了研究这个问题,我们使用了兔子的心室动作电位模型来模拟组织,在该组织中,易受EAD或DAD影响的连续心肌细胞的中心区域被不敏感的组织包围。在具有正常纵向传导速度(0.55 m / s)的一维组织中,EAD和勉强高于阈值DAD触发传播动作电位所需的连续易感心肌细胞数分别为70和80。在2D组织中,这些数字增加到6940和7854,在3D组织中,这些数字增加到696,910和817,280。减少的间隙连接电导,模拟的纤维化,减少的复极储备和心力衰竭电重构显着降低了这些数目。总之,由于偶发的去极化作用,心脏耦合良好的源-源不匹配可以有效地保护心脏免受心律不齐的影响。结构和电生理重构显着减少了这些数目,但仍需要EAD和DAD的同步机制来克服源-汇不匹配的强大保护作用。
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