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急性高碳酸血症可改变心房电生理,但不会改变低氧血症:这对肺病和睡眠呼吸暂停中促进房颤的发生有影响。

Atrial electrophysiology is altered by acute hypercapnia but not hypoxemia: implications for promotion of atrial fibrillation in pulmonary disease and sleep apnea.

机构信息

Department of Cardiology, Royal Melbourne Hospital, Melbourne, Australia.

出版信息

Heart Rhythm. 2010 Sep;7(9):1263-70. doi: 10.1016/j.hrthm.2010.03.020. Epub 2010 Mar 22.

DOI:10.1016/j.hrthm.2010.03.020
PMID:20338265
Abstract

BACKGROUND

Chronic pulmonary disease and sleep apnea have been associated with the development of atrial fibrillation (AF).

OBJECTIVE

The purpose of this study was to characterize the atrial electrical changes that occur with hypercapnia and hypoxemia and to determine their role in AF development.

METHODS

Seventeen sheep (6 control, 5 hypercapnia, 6 hypoxemia) underwent open chest electrophysiologic evaluation under autonomic blockade. A 64-electrode endocardial basket catheter was positioned in the right atrium, and 2 x 128 electrode epicardial plaques were sutured to the right atrial and left atrial appendages to determine atrial refractoriness (effective refractory period [ERP]) at 9 sites and 5 cycle lengths, conduction time to fixed points on each plaque, and AF vulnerability.

RESULTS

Hypercapnia was associated with a 152% lengthening of ERP from baseline and increased conduction time. ERPs rapidly returned to baseline, but recovery of conduction was delayed at least 117 +/- 24 minutes following resolution of hypercapnia. AF vulnerability was reduced during hypercapnia (with increased ERP) but increased significantly with subsequent return to eucapnia (when ERP normalized but conduction time remained prolonged). No significant changes in ERP, atrial conduction time, or AF vulnerability occurred in hypoxemic or control groups.

CONCLUSION

Differential recovery of ERP and conduction that occurs following hypercapnia might account for the increased vulnerability to AF observed in the phase after return to eucapnia. This may explain in part the increased prevalence of AF in pulmonary disease and sleep apnea.

摘要

背景

慢性肺部疾病和睡眠呼吸暂停与心房颤动(AF)的发展有关。

目的

本研究的目的是描述高碳酸血症和低氧血症时发生的心房电变化,并确定其在 AF 发展中的作用。

方法

17 只绵羊(6 只对照组,5 只高碳酸血症组,6 只低氧血症组)在自主神经阻断下进行开胸电生理评估。将一个 64 电极心内膜篮导管置于右心房,将 2x128 电极心外膜斑块缝合到右心房和左心耳,以确定 9 个部位和 5 个心动周期长度的心房不应期(有效不应期[ERP])、每个斑块上固定点的传导时间和 AF 易损性。

结果

高碳酸血症导致 ERP 从基线延长 152%,并增加了传导时间。ERP 迅速恢复到基线,但在高碳酸血症缓解后至少 117 +/- 24 分钟恢复传导延迟。高碳酸血症期间 AF 易损性降低(ERP 增加),但随着随后恢复到正常碳酸血症,易损性显著增加(ERP 正常但传导时间延长)。低氧血症或对照组的 ERP、心房传导时间或 AF 易损性均无显著变化。

结论

高碳酸血症后 ERP 和传导的不同恢复可能是复常后 AF 易感性增加的原因。这部分解释了肺部疾病和睡眠呼吸暂停中 AF 患病率增加的部分原因。

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