Mapping the unseen: Programmed electrical stimulation to detect concealed conduction block

Rongheng Liao; Lu Zhang; Paul Knops; Ziliang Ye; Yannick J H J Taverne; Jolanda Kluin; Vehpi Yildirim; Mathijs S van Schie; Antonio Frontera; Natasja M S de Groot

doi:10.1016/j.hrthm.2025.10.053

Mapping the unseen: Programmed electrical stimulation to detect concealed conduction block

Rongheng Liao
, Lu Zhang
, Paul Knops
, Ziliang Ye
, Yannick J H J Taverne
, Jolanda Kluin
, Vehpi Yildirim
, Mathijs S van Schie
, Antonio Frontera
, Natasja M S de Groot^*

^*Corresponding author for this work

Grande Ospedale Metropolitano Niguarda

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

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Abstract

BACKGROUND: Conduction blocks (CBs) play an important role in the initiation and perpetuation of atrial fibrillation and may be masked because of its direction- or rate dependency.

OBJECTIVE: We aim to investigate how the highest amount and most severe CB at the right atrium (RA) can be unmasked by delivering programmed electrical stimulation (PES) from various directions and at different frequencies.

METHODS: High-resolution epicardial mapping was performed at the middle of the RA on 40 patients during sinus rhythm (SR) and PES from the 4 sides of the mapping array at the average SR cycle length minus 50 ms (SR 50) and 3 different S1S2 trains (S1 400, S2 300, S2 250 or S2 200). CB area percentage (CBA%) was defined as the proportion of electrodes with a local conduction time ≥12 ms. CB severity was defined as the 95th percentile of the conduction times over the lines of CB.

RESULTS: CBA% increased from 0.6 [0-7.0]% during SR to 15.4 [12.3-19.2]% during S2 200 (P < .001). CB severity increased from 18 [14-29] ms during SR to 46 [29-53] ms during S2 200 (P < .001). PES increased CBA% over SR from 58% of patients during SR50 to 100% during S2200. The largest increase in CBA% occurred during S2 250 during pacing from perpendicular (+7.3 [0.5-10.8]%) and opposite (+7.4 [3.5-15.5]%) to the direction of SR.

CONCLUSION: Perpendicular pacing opposite to the direction of SR using premature stimuli is optimal for unmasking CB. PES may also reduce CB in patients who already exhibit complex activation patterns during SR.

Original language	English
Journal	Heart Rhythm
DOIs	https://doi.org/10.1016/j.hrthm.2025.10.053
Publication status	E-pub ahead of print - 31 Oct 2025

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@article{c976c1211b1846c9990f110b23ebd878,

title = "Mapping the unseen: Programmed electrical stimulation to detect concealed conduction block",

abstract = "BACKGROUND: Conduction blocks (CBs) play an important role in the initiation and perpetuation of atrial fibrillation and may be masked because of its direction- or rate dependency.OBJECTIVE: We aim to investigate how the highest amount and most severe CB at the right atrium (RA) can be unmasked by delivering programmed electrical stimulation (PES) from various directions and at different frequencies.METHODS: High-resolution epicardial mapping was performed at the middle of the RA on 40 patients during sinus rhythm (SR) and PES from the 4 sides of the mapping array at the average SR cycle length minus 50 ms (SR 50) and 3 different S1S2 trains (S1 400, S2 300, S2 250 or S2 200). CB area percentage (CBA\%) was defined as the proportion of electrodes with a local conduction time ≥12 ms. CB severity was defined as the 95th percentile of the conduction times over the lines of CB. RESULTS: CBA\% increased from 0.6 [0-7.0]\% during SR to 15.4 [12.3-19.2]\% during S2 200 (P < .001). CB severity increased from 18 [14-29] ms during SR to 46 [29-53] ms during S2 200 (P < .001). PES increased CBA\% over SR from 58\% of patients during SR50 to 100\% during S2200. The largest increase in CBA\% occurred during S2 250 during pacing from perpendicular (+7.3 [0.5-10.8]\%) and opposite (+7.4 [3.5-15.5]\%) to the direction of SR. CONCLUSION: Perpendicular pacing opposite to the direction of SR using premature stimuli is optimal for unmasking CB. PES may also reduce CB in patients who already exhibit complex activation patterns during SR.",

author = "Rongheng Liao and Lu Zhang and Paul Knops and Ziliang Ye and Taverne, \{Yannick J H J\} and Jolanda Kluin and Vehpi Yildirim and \{van Schie\}, \{Mathijs S\} and Antonio Frontera and \{de Groot\}, \{Natasja M S\}",

year = "2025",

month = oct,

day = "31",

doi = "10.1016/j.hrthm.2025.10.053",

language = "English",

journal = "Heart Rhythm",

issn = "1547-5271",

publisher = "Elsevier",

}

TY - JOUR

T1 - Mapping the unseen

T2 - Programmed electrical stimulation to detect concealed conduction block

AU - Liao, Rongheng

AU - Zhang, Lu

AU - Knops, Paul

AU - Ye, Ziliang

AU - Taverne, Yannick J H J

AU - Kluin, Jolanda

AU - Yildirim, Vehpi

AU - van Schie, Mathijs S

AU - Frontera, Antonio

AU - de Groot, Natasja M S

PY - 2025/10/31

Y1 - 2025/10/31

N2 - BACKGROUND: Conduction blocks (CBs) play an important role in the initiation and perpetuation of atrial fibrillation and may be masked because of its direction- or rate dependency.OBJECTIVE: We aim to investigate how the highest amount and most severe CB at the right atrium (RA) can be unmasked by delivering programmed electrical stimulation (PES) from various directions and at different frequencies.METHODS: High-resolution epicardial mapping was performed at the middle of the RA on 40 patients during sinus rhythm (SR) and PES from the 4 sides of the mapping array at the average SR cycle length minus 50 ms (SR 50) and 3 different S1S2 trains (S1 400, S2 300, S2 250 or S2 200). CB area percentage (CBA%) was defined as the proportion of electrodes with a local conduction time ≥12 ms. CB severity was defined as the 95th percentile of the conduction times over the lines of CB. RESULTS: CBA% increased from 0.6 [0-7.0]% during SR to 15.4 [12.3-19.2]% during S2 200 (P < .001). CB severity increased from 18 [14-29] ms during SR to 46 [29-53] ms during S2 200 (P < .001). PES increased CBA% over SR from 58% of patients during SR50 to 100% during S2200. The largest increase in CBA% occurred during S2 250 during pacing from perpendicular (+7.3 [0.5-10.8]%) and opposite (+7.4 [3.5-15.5]%) to the direction of SR. CONCLUSION: Perpendicular pacing opposite to the direction of SR using premature stimuli is optimal for unmasking CB. PES may also reduce CB in patients who already exhibit complex activation patterns during SR.

AB - BACKGROUND: Conduction blocks (CBs) play an important role in the initiation and perpetuation of atrial fibrillation and may be masked because of its direction- or rate dependency.OBJECTIVE: We aim to investigate how the highest amount and most severe CB at the right atrium (RA) can be unmasked by delivering programmed electrical stimulation (PES) from various directions and at different frequencies.METHODS: High-resolution epicardial mapping was performed at the middle of the RA on 40 patients during sinus rhythm (SR) and PES from the 4 sides of the mapping array at the average SR cycle length minus 50 ms (SR 50) and 3 different S1S2 trains (S1 400, S2 300, S2 250 or S2 200). CB area percentage (CBA%) was defined as the proportion of electrodes with a local conduction time ≥12 ms. CB severity was defined as the 95th percentile of the conduction times over the lines of CB. RESULTS: CBA% increased from 0.6 [0-7.0]% during SR to 15.4 [12.3-19.2]% during S2 200 (P < .001). CB severity increased from 18 [14-29] ms during SR to 46 [29-53] ms during S2 200 (P < .001). PES increased CBA% over SR from 58% of patients during SR50 to 100% during S2200. The largest increase in CBA% occurred during S2 250 during pacing from perpendicular (+7.3 [0.5-10.8]%) and opposite (+7.4 [3.5-15.5]%) to the direction of SR. CONCLUSION: Perpendicular pacing opposite to the direction of SR using premature stimuli is optimal for unmasking CB. PES may also reduce CB in patients who already exhibit complex activation patterns during SR.

U2 - 10.1016/j.hrthm.2025.10.053

DO - 10.1016/j.hrthm.2025.10.053

M3 - Article

C2 - 41177317

SN - 1547-5271

JO - Heart Rhythm

JF - Heart Rhythm

ER -

Mapping the unseen: Programmed electrical stimulation to detect concealed conduction block

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