The identification of conduction gaps after pulmonary vein isolation using a new electroanatomic mapping system

The reconnection of left atrial–pulmonary vein (LA-PV) conduction after the initial procedure of pulmonary vein (PV) isolation is not rare, and is one of the main cause of atrial fibrillation (AF) recurrence after PV isolation. We investigated feasibility of a new ultrahigh-resolution mapping system...

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Veröffentlicht in:	Heart rhythm 2017-11, Vol.14 (11), p.1606-1614
Hauptverfasser:	Masuda, Masaharu, Fujita, Masashi, Iida, Osamu, Okamoto, Shin, Ishihara, Takayuki, Nanto, Kiyonori, Kanda, Takashi, Tsujimura, Takuya, Matsuda, Yasuhiro, Okuno, Shota, Ohashi, Takuya, Tsuji, Aki, Mano, Toshiaki
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Sprache:	eng
Schlagworte:	Atrial fibrillation Conduction gap Pulmonary vein isolation Reconnection Ultrahigh resolution
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creator	Masuda, Masaharu Fujita, Masashi Iida, Osamu Okamoto, Shin Ishihara, Takayuki Nanto, Kiyonori Kanda, Takashi Tsujimura, Takuya Matsuda, Yasuhiro Okuno, Shota Ohashi, Takuya Tsuji, Aki Mano, Toshiaki
description	The reconnection of left atrial–pulmonary vein (LA-PV) conduction after the initial procedure of pulmonary vein (PV) isolation is not rare, and is one of the main cause of atrial fibrillation (AF) recurrence after PV isolation. We investigated feasibility of a new ultrahigh-resolution mapping system using a 64-pole small basket catheter for the identification of LA-PV conduction gaps. This prospective study included 31 consecutive patients (20 with persistent AF) undergoing a second ablation after a PV isolation procedure with LA-PV reconnected conduction at any of the 4 PVs. An LA-PV map was created using the mapping system, and ablation was performed at the estimated gap location. The propagation map identified 54 gaps from 39 ipsilateral PV pairs, requiring manual electrogram reannotation for 23 gaps (43%). Gaps at the anterior and carinal regions of left and right ipsilateral PVs required manual electrogram reannotation more frequently than the other regions. The voltage map could identify the gap only in 19 instances (35%). Electrophysiological properties of the gaps (multiple gaps in the same ipsilateral PVs, conduction time, velocity, width, and length) did not differ between those needing and not needing manual electrogram reannotation. During the gap ablation, either the activation sequence alteration or elimination of PV potentials was observed using a circular catheter placed in the PV, suggesting that all the identified gaps were correct. This new electroanatomic mapping system visualized all the LA-PV gaps in patients undergoing a second AF ablation.
doi_str_mv	10.1016/j.hrthm.2017.08.016
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We investigated feasibility of a new ultrahigh-resolution mapping system using a 64-pole small basket catheter for the identification of LA-PV conduction gaps. This prospective study included 31 consecutive patients (20 with persistent AF) undergoing a second ablation after a PV isolation procedure with LA-PV reconnected conduction at any of the 4 PVs. An LA-PV map was created using the mapping system, and ablation was performed at the estimated gap location. The propagation map identified 54 gaps from 39 ipsilateral PV pairs, requiring manual electrogram reannotation for 23 gaps (43%). Gaps at the anterior and carinal regions of left and right ipsilateral PVs required manual electrogram reannotation more frequently than the other regions. The voltage map could identify the gap only in 19 instances (35%). Electrophysiological properties of the gaps (multiple gaps in the same ipsilateral PVs, conduction time, velocity, width, and length) did not differ between those needing and not needing manual electrogram reannotation. During the gap ablation, either the activation sequence alteration or elimination of PV potentials was observed using a circular catheter placed in the PV, suggesting that all the identified gaps were correct. 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Electrophysiological properties of the gaps (multiple gaps in the same ipsilateral PVs, conduction time, velocity, width, and length) did not differ between those needing and not needing manual electrogram reannotation. During the gap ablation, either the activation sequence alteration or elimination of PV potentials was observed using a circular catheter placed in the PV, suggesting that all the identified gaps were correct. 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subjects	Atrial fibrillation Conduction gap Pulmonary vein isolation Reconnection Ultrahigh resolution
title	The identification of conduction gaps after pulmonary vein isolation using a new electroanatomic mapping system
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