Application of dynamic display technology to identify gaps after pulmonary vein isolation in catheter ablation of atrial fibrillation

Wei Tso Chen; Li Wei Lo; Wen Chin Tsai; Yenn Jiang Lin; Shih Lin Chang; Yu Feng Hu; Fa Po Chung; Jo Nan Liao; Ta Chuan Tuan; Tze Fan Chao; Chin Yu Lin; Ting Yung Chang; Ling Kuo; Chih Min Liu; Shin Huei Liu; Wen Han Cheng; Linda Lin; An Nu Khanh Ton; Chu Yu Hsu; Chhay Chheng; Ahmed Elimam; Hui Sheng Wang; Ming Ren Kuo; Pei Heng Kao; Shih Ann Chen

doi:10.1016/j.jjcc.2022.02.020

Application of dynamic display technology to identify gaps after pulmonary vein isolation in catheter ablation of atrial fibrillation

Wei Tso Chen, Li Wei Lo^*, Wen Chin Tsai, Yenn Jiang Lin, Shih Lin Chang, Yu Feng Hu, Fa Po Chung, Jo Nan Liao, Ta Chuan Tuan, Tze Fan Chao, Chin Yu Lin, Ting Yung Chang, Ling Kuo, Chih Min Liu, Shin Huei Liu, Wen Han Cheng, Linda Lin, An Nu Khanh Ton, Chu Yu Hsu, Chhay ChhengAhmed Elimam, Hui Sheng Wang, Ming Ren Kuo, Pei Heng Kao, Shih Ann Chen^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Background: The identification of post pulmonary vein isolation (PVI) gaps by activation and voltage maps is time-consuming. This study aimed to investigate the characteristics, efficiency and accuracy of LiveView dynamic display module (EnSite™ Dynamic Display; Abbott, Abbott Park, IL, USA) in unmasking post PVI gaps and conduction block line. Method: Twenty four patients with paroxysmal atrial fibrillation (PAF) who failed to achieve first-pass PVI or with recurrent PAF were enrolled. Ninety-six pulmonary veins (PVs) were evaluated, and gaps were identified in 25 (26.0%) PVs. The gap location was confirmed by activation and propagation maps; 110 frames on gaps and 118 frames on block lines were analyzed by using LiveView module. We defined isochronal crowding in the local activation time (LAT) mode as three colors between two adjacent electrodes. Each frame was classified as with or without isochronal crowding in LAT mode and one/continuous color or isochronal discontinuity in reentrant mode. The gray color inside the PVs was considered to represent conduction block. Result: The isochronal crowding could be found on both gap and block line in LAT mode, whereas isochronal discontinuity only presented on the block line in reentrant mode. The sensitivity and specificity of isochronal discontinuity or gray color in reentrant mode to identify block line were 61.0% and 100%, respectively. The sensitivity and specificity of isochronal crowding or gray color in LAT mode to identify block line were 71.2% and 71.8%, respectively. Conclusion: Reentrant mode in LiveView module is very specific in identifying block lines. We proposed an efficient, practical algorithm to differentiate the block line from PV gaps.

Original language	English
Pages (from-to)	34-40
Number of pages	7
Journal	Journal of Cardiology
Volume	80
Issue number	1
DOIs	https://doi.org/10.1016/j.jjcc.2022.02.020
State	Published - Jul 2022

Keywords

Atrial fibrillation
Block lines
Gaps
LiveView module
Pulmonary vein

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10.1016/j.jjcc.2022.02.020

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Chen, W. T., Lo, L. W., Tsai, W. C., Lin, Y. J., Chang, S. L., Hu, Y. F., Chung, F. P., Liao, J. N., Tuan, T. C., Chao, T. F., Lin, C. Y., Chang, T. Y., Kuo, L., Liu, C. M., Liu, S. H., Cheng, W. H., Lin, L., Ton, A. N. K., Hsu, C. Y., ... Chen, S. A. (2022). Application of dynamic display technology to identify gaps after pulmonary vein isolation in catheter ablation of atrial fibrillation. Journal of Cardiology, 80(1), 34-40. https://doi.org/10.1016/j.jjcc.2022.02.020

@article{610f920f45f84872928e55091ffa593a,

title = "Application of dynamic display technology to identify gaps after pulmonary vein isolation in catheter ablation of atrial fibrillation",

abstract = "Background: The identification of post pulmonary vein isolation (PVI) gaps by activation and voltage maps is time-consuming. This study aimed to investigate the characteristics, efficiency and accuracy of LiveView dynamic display module (EnSite{\texttrademark} Dynamic Display; Abbott, Abbott Park, IL, USA) in unmasking post PVI gaps and conduction block line. Method: Twenty four patients with paroxysmal atrial fibrillation (PAF) who failed to achieve first-pass PVI or with recurrent PAF were enrolled. Ninety-six pulmonary veins (PVs) were evaluated, and gaps were identified in 25 (26.0%) PVs. The gap location was confirmed by activation and propagation maps; 110 frames on gaps and 118 frames on block lines were analyzed by using LiveView module. We defined isochronal crowding in the local activation time (LAT) mode as three colors between two adjacent electrodes. Each frame was classified as with or without isochronal crowding in LAT mode and one/continuous color or isochronal discontinuity in reentrant mode. The gray color inside the PVs was considered to represent conduction block. Result: The isochronal crowding could be found on both gap and block line in LAT mode, whereas isochronal discontinuity only presented on the block line in reentrant mode. The sensitivity and specificity of isochronal discontinuity or gray color in reentrant mode to identify block line were 61.0% and 100%, respectively. The sensitivity and specificity of isochronal crowding or gray color in LAT mode to identify block line were 71.2% and 71.8%, respectively. Conclusion: Reentrant mode in LiveView module is very specific in identifying block lines. We proposed an efficient, practical algorithm to differentiate the block line from PV gaps.",

keywords = "Atrial fibrillation, Block lines, Gaps, LiveView module, Pulmonary vein",

author = "Chen, {Wei Tso} and Lo, {Li Wei} and Tsai, {Wen Chin} and Lin, {Yenn Jiang} and Chang, {Shih Lin} and Hu, {Yu Feng} and Chung, {Fa Po} and Liao, {Jo Nan} and Tuan, {Ta Chuan} and Chao, {Tze Fan} and Lin, {Chin Yu} and Chang, {Ting Yung} and Ling Kuo and Liu, {Chih Min} and Liu, {Shin Huei} and Cheng, {Wen Han} and Linda Lin and Ton, {An Nu Khanh} and Hsu, {Chu Yu} and Chhay Chheng and Ahmed Elimam and Wang, {Hui Sheng} and Kuo, {Ming Ren} and Kao, {Pei Heng} and Chen, {Shih Ann}",

note = "Publisher Copyright: {\textcopyright} 2021 Elsevier Ltd",

year = "2022",

month = jul,

doi = "10.1016/j.jjcc.2022.02.020",

language = "English",

volume = "80",

pages = "34--40",

journal = "Journal of Cardiology",

issn = "0914-5087",

publisher = "Japanese College of Cardiology (Nippon-Sinzobyo-Gakkai)",

number = "1",

}

Chen, WT, Lo, LW, Tsai, WC, Lin, YJ, Chang, SL , Hu, YF, Chung, FP, Liao, JN, Tuan, TC, Chao, TF, Lin, CY, Chang, TY, Kuo, L, Liu, CM, Liu, SH, Cheng, WH, Lin, L, Ton, ANK, Hsu, CY, Chheng, C, Elimam, A, Wang, HS, Kuo, MR, Kao, PH & Chen, SA 2022, 'Application of dynamic display technology to identify gaps after pulmonary vein isolation in catheter ablation of atrial fibrillation', Journal of Cardiology, vol. 80, no. 1, pp. 34-40. https://doi.org/10.1016/j.jjcc.2022.02.020

TY - JOUR

T1 - Application of dynamic display technology to identify gaps after pulmonary vein isolation in catheter ablation of atrial fibrillation

AU - Chen, Wei Tso

AU - Lo, Li Wei

AU - Tsai, Wen Chin

AU - Lin, Yenn Jiang

AU - Chang, Shih Lin

AU - Hu, Yu Feng

AU - Chung, Fa Po

AU - Liao, Jo Nan

AU - Tuan, Ta Chuan

AU - Chao, Tze Fan

AU - Lin, Chin Yu

AU - Chang, Ting Yung

AU - Kuo, Ling

AU - Liu, Chih Min

AU - Liu, Shin Huei

AU - Cheng, Wen Han

AU - Lin, Linda

AU - Ton, An Nu Khanh

AU - Hsu, Chu Yu

AU - Chheng, Chhay

AU - Elimam, Ahmed

AU - Wang, Hui Sheng

AU - Kuo, Ming Ren

AU - Kao, Pei Heng

AU - Chen, Shih Ann

PY - 2022/7

Y1 - 2022/7

N2 - Background: The identification of post pulmonary vein isolation (PVI) gaps by activation and voltage maps is time-consuming. This study aimed to investigate the characteristics, efficiency and accuracy of LiveView dynamic display module (EnSite™ Dynamic Display; Abbott, Abbott Park, IL, USA) in unmasking post PVI gaps and conduction block line. Method: Twenty four patients with paroxysmal atrial fibrillation (PAF) who failed to achieve first-pass PVI or with recurrent PAF were enrolled. Ninety-six pulmonary veins (PVs) were evaluated, and gaps were identified in 25 (26.0%) PVs. The gap location was confirmed by activation and propagation maps; 110 frames on gaps and 118 frames on block lines were analyzed by using LiveView module. We defined isochronal crowding in the local activation time (LAT) mode as three colors between two adjacent electrodes. Each frame was classified as with or without isochronal crowding in LAT mode and one/continuous color or isochronal discontinuity in reentrant mode. The gray color inside the PVs was considered to represent conduction block. Result: The isochronal crowding could be found on both gap and block line in LAT mode, whereas isochronal discontinuity only presented on the block line in reentrant mode. The sensitivity and specificity of isochronal discontinuity or gray color in reentrant mode to identify block line were 61.0% and 100%, respectively. The sensitivity and specificity of isochronal crowding or gray color in LAT mode to identify block line were 71.2% and 71.8%, respectively. Conclusion: Reentrant mode in LiveView module is very specific in identifying block lines. We proposed an efficient, practical algorithm to differentiate the block line from PV gaps.

AB - Background: The identification of post pulmonary vein isolation (PVI) gaps by activation and voltage maps is time-consuming. This study aimed to investigate the characteristics, efficiency and accuracy of LiveView dynamic display module (EnSite™ Dynamic Display; Abbott, Abbott Park, IL, USA) in unmasking post PVI gaps and conduction block line. Method: Twenty four patients with paroxysmal atrial fibrillation (PAF) who failed to achieve first-pass PVI or with recurrent PAF were enrolled. Ninety-six pulmonary veins (PVs) were evaluated, and gaps were identified in 25 (26.0%) PVs. The gap location was confirmed by activation and propagation maps; 110 frames on gaps and 118 frames on block lines were analyzed by using LiveView module. We defined isochronal crowding in the local activation time (LAT) mode as three colors between two adjacent electrodes. Each frame was classified as with or without isochronal crowding in LAT mode and one/continuous color or isochronal discontinuity in reentrant mode. The gray color inside the PVs was considered to represent conduction block. Result: The isochronal crowding could be found on both gap and block line in LAT mode, whereas isochronal discontinuity only presented on the block line in reentrant mode. The sensitivity and specificity of isochronal discontinuity or gray color in reentrant mode to identify block line were 61.0% and 100%, respectively. The sensitivity and specificity of isochronal crowding or gray color in LAT mode to identify block line were 71.2% and 71.8%, respectively. Conclusion: Reentrant mode in LiveView module is very specific in identifying block lines. We proposed an efficient, practical algorithm to differentiate the block line from PV gaps.

KW - Atrial fibrillation

KW - Block lines

KW - Gaps

KW - LiveView module

KW - Pulmonary vein

UR - http://www.scopus.com/inward/record.url?scp=85127344059&partnerID=8YFLogxK

U2 - 10.1016/j.jjcc.2022.02.020

DO - 10.1016/j.jjcc.2022.02.020

M3 - Article

C2 - 35337707

AN - SCOPUS:85127344059

SN - 0914-5087

VL - 80

SP - 34

EP - 40

JO - Journal of Cardiology

JF - Journal of Cardiology

IS - 1

ER -

Application of dynamic display technology to identify gaps after pulmonary vein isolation in catheter ablation of atrial fibrillation

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