窦房结起搏细胞时钟的同步及其自主调节使心跳间期变得复杂。

Synchronization of sinoatrial node pacemaker cell clocks and its autonomic modulation impart complexity to heart beating intervals.

作者信息

Yaniv Yael, Ahmet Ismayil, Liu Jie, Lyashkov Alexey E, Guiriba Toni-Rose, Okamoto Yosuke, Ziman Bruce D, Lakatta Edward G

机构信息

Laboratory of Cardiovascular Science, Biomedical Research Center, Intramural Research Program, National Institute on Aging, National Institutes of Health, Baltimore, Maryland; Biomedical Engineering Faculty, Technion-IIT, Haifa, Israel.

Laboratory of Cardiovascular Science, Biomedical Research Center, Intramural Research Program, National Institute on Aging, National Institutes of Health, Baltimore, Maryland.

出版信息

Heart Rhythm. 2014 Jul;11(7):1210-9. doi: 10.1016/j.hrthm.2014.03.049. Epub 2014 Apr 5.

DOI:10.1016/j.hrthm.2014.03.049

PMID:24713624

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4065846/

Abstract

BACKGROUND

A reduction of complexity of heart beating interval variability that is associated with an increased morbidity and mortality in cardiovascular disease states is thought to derive from the balance of sympathetic and parasympathetic neural impulses to the heart. However, rhythmic clocklike behavior intrinsic to pacemaker cells in the sinoatrial node (SAN) drives their beating, even in the absence of autonomic neural input.

OBJECTIVE

To test how this rhythmic clocklike behavior intrinsic to pacemaker cells interacts with autonomic impulses to the heart beating interval variability in vivo.

METHODS

We analyzed beating interval variability in time and frequency domains and by fractal and entropy analyses: (1) in vivo, when the brain input to the SAN is intact; (2) during autonomic denervation in vivo; (3) in isolated SAN tissue (ie, in which the autonomic neural input is completely absent); (4) in single pacemaker cells isolated from the SAN; and (5) after autonomic receptor stimulation of these cells.

RESULTS

Spontaneous beating intervals of pacemaker cells residing in the isolated SAN tissue exhibit fractal-like behavior and have lower approximate entropy compared with those in the intact heart. Isolation of pacemaker cells from SAN tissue, however, leads to a loss in the beating interval order and fractal-like behavior. β-Adrenergic receptor stimulation of isolated pacemaker cells increases intrinsic clock synchronization, decreases their action potential period, and increases system complexity.

CONCLUSIONS

Both the average beating interval in vivo and beating interval complexity are conferred by the combined effects of clock periodicity intrinsic to pacemaker cells and their response to autonomic neural input.

摘要

背景

心跳间期变异性的复杂性降低与心血管疾病状态下发病率和死亡率增加相关，这种降低被认为源于心脏交感神经和副交感神经冲动的平衡。然而，即使在没有自主神经输入的情况下，窦房结（SAN）中起搏细胞固有的节律性时钟样行为也驱动其跳动。

目的

测试起搏细胞固有的这种节律性时钟样行为如何与自主神经冲动相互作用，从而影响体内心跳间期变异性。

方法

我们通过时域和频域分析以及分形和熵分析来分析心跳间期变异性：（1）在体内，当大脑对窦房结的输入完整时；（2）在体内自主神经去神经支配期间；（3）在分离的窦房结组织中（即完全没有自主神经输入）；（4）在从窦房结分离的单个起搏细胞中；（5）对这些细胞进行自主神经受体刺激后。

结果

与完整心脏中的起搏细胞相比，分离的窦房结组织中起搏细胞的自发心跳间期表现出类似分形的行为，且近似熵较低。然而，从窦房结组织中分离起搏细胞会导致心跳间期顺序和类似分形行为的丧失。对分离的起搏细胞进行β-肾上腺素能受体刺激可增加固有时钟同步性，缩短其动作电位周期，并增加系统复杂性。

结论

体内平均心跳间期和心跳间期复杂性均由起搏细胞固有的时钟周期性及其对自主神经输入的反应共同作用所致。

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