典型心房扑动基底中的窦房结功能和窦房传导作用。

IF 8.3 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

ACS Applied Materials & Interfaces Pub Date : 2024-10-09 DOI:10.1016/j.hrthm.2024.10.003

Karan Saraf, Sanjoy Chowdhury, Wei Hu, Luca Soattin, Nicholas Black, Pawel Kuklik, Nicholas Jackson, Mark R Boyett, Jonathan M Kalman, Alicia D'Souza, Henggui Zhang, Gwilym M Morris

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引用次数: 0

摘要

背景：已在动物身上评估了中房结节（SAN）激活和中房传导通路（SACPs），但尚未对人类进行评估：我们使用超高密度（UHD）绘图和模拟模型来描述 SAN 的特征，并研究 SAN 传导减慢是否可能导致心房扑动（AFL）的基质：27名接受电生理程序的患者接受了右心房（RA）绘图。对 SAN 激活模式和传导阻滞进行了分析。分析了 SAN 与腔间传导阻滞线（LOB）之间的相互作用，并创建了不同阻滞程度的 RA 模拟，以研究心律失常机制：结果：15 名 AFL 患者和 12 名参考患者被纳入研究。所有患者的窦性心律图中都发现了 SACP。在 AFL 患者中观察到邻近 SAN 的 LOB。AFL患者的SAN传导速度（CV）比参照患者慢（0.60m/s [0.56-0.78m/s] vs 1.13m/s [1.00-1.21m/s]，P=0.0021）。冠状动脉窦起搏图在 AFL 患者中显示了一个腔间 LOB，而在参照者中没有显示，该 LOB 由 SAN 相邻 LOB 的上部完成。AFL患者的校正窦房结恢复时间（cSNRT）更长（552.3±182.9ms vs 325.4±138.3ms，p结论：UHD图谱能准确识别SAN激活和SACPs。在 AFL 患者中，对典型 AFL 非常重要的 LOB 更长，当部分 LOB 时，由于跨 SAN 的传导减慢，LOB 总是出现在下部，并在上部完成。

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Sinoatrial node function and the role of sinoatrial conduction in the typical atrial flutter substrate.

Background: Sinoatrial node (SAN) activation and sinoatrial conduction pathways (SACPs) have been assessed in animals but not in humans.

Objectives: We used ultrahigh-density mapping and simulated models to characterize the SAN and to investigate whether slowed SAN conduction may contribute to the atrial flutter (AFL) substrate.

Methods: Twenty-seven patients undergoing electrophysiologic procedures had right atrial mapping. SAN activation patterns and conduction block were analyzed. The interaction between the SAN and the intercaval line of block (LOB) was analyzed, and right atrial simulations with different degrees of block were created to investigate arrhythmia mechanisms.

Results: Fifteen AFL patients and 12 reference patients were enrolled. SACPs were identified in all patients with sinus rhythm maps. An SAN-adjacent LOB was observed in AFL patients. SAN conduction velocity was slower in AFL vs reference (0.60 m/s [0.56-0.78 m/s] vs 1.13 m/s [1.00-1.21 m/s]; P = .0021). Coronary sinus paced maps displayed an intercaval LOB in AFL patients but not in reference patients, which was completed superiorly by the SAN-adjacent LOB. Corrected sinus node recovery time was longer in AFL patients (552.3 ± 182.9 ms vs 325.4 ± 138.3 ms; P < .006) and correlated with degree of intercaval block (r = 0.7236; P = .0003). Computer modeling supported an important role of SAN-associated block in the flutter substrate.

Conclusion: Ultrahigh-density mapping accurately identifies SAN activation and SACPs. The LOB important for typical AFL was longer in AFL patients, and when partial, it was always present inferiorly and completed superiorly because of slowed conduction across the SAN. Corrected sinus node recovery time correlated with intercaval block, suggesting a role for SAN disease in the genesis of the typical AFL substrate.

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来源期刊

ACS Applied Materials & Interfaces 工程技术-材料科学：综合

CiteScore

16.00

自引率

6.30%

发文量

4978

审稿时长

1.8 months

期刊介绍： ACS Applied Materials & Interfaces is a leading interdisciplinary journal that brings together chemists, engineers, physicists, and biologists to explore the development and utilization of newly-discovered materials and interfacial processes for specific applications. Our journal has experienced remarkable growth since its establishment in 2009, both in terms of the number of articles published and the impact of the research showcased. We are proud to foster a truly global community, with the majority of published articles originating from outside the United States, reflecting the rapid growth of applied research worldwide.