右心室起搏时心室激动模式评估：超高频心电图研究。

Ventricular activation pattern assessment during right ventricular pacing: Ultra-high-frequency ECG study.

机构信息

Cardiocenter, Third Faculty of Medicine, Charles University and University Hospital Kralovske Vinohrady, Prague, Czech Republic.

Institute of Scientific Instruments, Czech Academy of Sciences, Brno, Czech Republic.

出版信息

J Cardiovasc Electrophysiol. 2021 May;32(5):1385-1394. doi: 10.1111/jce.14985. Epub 2021 Mar 11.

DOI:10.1111/jce.14985

PMID:33682277

Abstract

BACKGROUND

Right ventricular (RV) pacing causes delayed activation of remote ventricular segments. We used the ultra-high-frequency ECG (UHF-ECG) to describe ventricular depolarization when pacing different RV locations.

METHODS

In 51 patients, temporary pacing was performed at the RV septum (mSp); further subclassified as right ventricular inflow tract (RVIT) and right ventricular outflow tract (RVOT) for septal inflow and outflow positions (below or above the plane of His bundle in right anterior oblique), apex, anterior lateral wall, and at the basal RV septum with nonselective His bundle or RBB capture (nsHBorRBBp). The timings of UHF-ECG electrical activations were quantified as left ventricular lateral wall delay (LVLWd; V8 activation delay) and RV lateral wall delay (RVLWd; V1 activation delay).

RESULTS

The LVLWd was shortest for nsHBorRBBp (11 ms [95% confidence interval = 5-17]), followed by the RVIT (19 ms [11-26]) and the RVOT (33 ms [27-40]; p < .01 between all of them), although the QRSd for the latter two were the same (153 ms (148-158) vs. 153 ms (148-158); p = .99). RV apical capture not only had a longer LVLWd (34 ms (26-43) compared to mSp (27 ms (20-34), p < .05), but its RVLWd (17 ms (9-25) was also the longest compared to other RV pacing sites (mean values for nsHBorRBBp, mSp, anterior and lateral wall captures being below 6 ms), p < .001 compared to each of them.

CONCLUSION

RVIT pacing produces better ventricular synchrony compared to other RV pacing locations with myocardial capture. However, UHF-ECG ventricular dysynchrony seen during RVIT pacing is increased compared to concomitant capture of basal septal myocytes and His bundle or proximal right bundle branch.

摘要

背景

右心室（RV）起搏会导致远程心室节段延迟激活。我们使用超高频心电图（UHF-ECG）来描述起搏不同 RV 位置时的心室去极化。

方法

在 51 例患者中，在 RV 间隔（mSp）进行临时起搏；进一步细分为右心室流入道（RVIT）和右心室流出道（RVOT），用于间隔流入和流出位置（在右前斜位希氏束平面下方或上方）、心尖、前外侧壁和基底 RV 间隔，采用非选择性希氏束或右束支捕获（nsHBorRBBp）。UHF-ECG 电激活的时间被量化为左心室外侧壁延迟（LVLWd；V8 激活延迟）和 RV 外侧壁延迟（RVLWd；V1 激活延迟）。

结果

nsHBorRBBp 的 LVLWd 最短（11ms [95%置信区间 5-17]），其次是 RVIT（19ms [11-26]）和 RVOT（33ms [27-40]），尽管后两者的 QRSd 相同（153ms [148-158] 与 153ms [148-158]；p=.99）。RV 心尖捕获不仅 LVLWd 更长（34ms [26-43] 与 mSp 相比 27ms [20-34]，p<.05），而且其 RVLWd（17ms [9-25]）也最长与其他 RV 起搏部位相比（nsHBorRBBp、mSp、前壁和侧壁捕获的平均值低于 6ms），与每个部位相比均 p<.001。

结论

与心肌捕获的其他 RV 起搏部位相比，RVIT 起搏产生更好的心室同步性。然而，与同时捕获基底间隔心肌和希氏束或近端右束支相比，RVIT 起搏期间 UHF-ECG 心室失同步增加。

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右心室起搏时心室激动模式评估：超高频心电图研究。

Ventricular activation pattern assessment during right ventricular pacing: Ultra-high-frequency ECG study.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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