Cardiovascular Center, Yokosuka Kyosai Hospital, Yokosuka, Japan.
Cardiovascular Center, Yokosuka Kyosai Hospital, Yokosuka, Japan.
Heart Rhythm. 2022 Aug;19(8):1255-1262. doi: 10.1016/j.hrthm.2022.03.1228. Epub 2022 Mar 31.
The vein of Marshall (VOM), which is surrounded by the Marshall bundle (MB), behaves as an epicardial connection bypassing the mitral isthmus. The influence of radiofrequency ablation and VOM ethanol infusion (VOM-EI) on epicardial MB conduction remains unclear.
The purpose of this study was to evaluate MB conduction status during mitral isthmus ablation.
Of 57 consecutive patients undergoing mitral isthmus ablation, 50 with electrode catheter cannulation into the VOM were analyzed. MB conduction was investigated by evaluating electrograms inside the VOM. Endocardial ablation was initially performed, followed by ablation inside the coronary sinus (CS), if required. Selective VOM-EI was performed if the MB potentials still exhibited early activation after radiofrequency ablation, suggesting the presence of MB connection bridging the mitral isthmus.
VOM electrograms composed of near-field MB and far-field left atrial potentials were recorded in all patients. Solely with endocardial ablation, 33 patients (66%) achieved entire mitral isthmus block, and 43 patients (86%) achieved an epicardial MB conduction block. MB potentials exhibited early activation in the remaining 7 (14%), even after requiring CS ablation. VOM-EI then was performed. Elimination of MB potentials was verified by electrode catheter reinsertion after VOM-EI. Mitral isthmus conduction was successfully blocked during VOM-EI in 4 patients and during additional radiofrequency ablation in the remaining 3. All patients finally achieved entire mitral isthmus block.
MB is effectively ablated by radiofrequency ablation. Continuous evaluation of MB conduction can reveal epicardial conduction and ablation effect. A residual MB epicardial connection is relatively rare but can be ablated by VOM-EI.
Marshall 静脉(VOM)被 Marshall 束(MB)环绕,其作为心外膜连接绕过二尖瓣峡部。射频消融和 VOM 乙醇注射(VOM-EI)对心外膜 MB 传导的影响尚不清楚。
本研究旨在评估二尖瓣峡部消融过程中 MB 传导状态。
连续 57 例行二尖瓣峡部消融的患者中,50 例行 VOM 电极导管插管的患者进行了分析。通过评估 VOM 内的电图来研究 MB 传导情况。首先进行心内膜消融,如果需要,再进行冠状窦(CS)内消融。如果 MB 电位在射频消融后仍表现出早期激活,提示存在 MB 连接桥接二尖瓣峡部,则进行选择性 VOM-EI。
所有患者均记录到由近场 MB 和远场左心房电位组成的 VOM 电图。仅通过心内膜消融,33 例(66%)患者实现了整个二尖瓣峡部阻滞,43 例(86%)患者实现了心外膜 MB 传导阻滞。在其余 7 例(14%)患者中,即使需要 CS 消融,MB 电位仍表现出早期激活。然后进行 VOM-EI。VOM-EI 后重新插入电极导管证实消除了 MB 电位。在 4 例患者中,VOM-EI 期间成功阻断了二尖瓣峡部传导,在其余 3 例患者中,在额外的射频消融期间成功阻断了二尖瓣峡部传导。所有患者最终均实现了整个二尖瓣峡部阻滞。
射频消融可有效消融 MB。持续评估 MB 传导可以揭示心外膜传导和消融效果。残留的 MB 心外膜连接相对较少,但可通过 VOM-EI 消融。
