Establishing safe, effective ablation in the diseased human ventricle: an analysis of generator impedance and electrogram attenuation
Establishing safe, effective ablation in the diseased human ventricle: an analysis of generator impedance and electrogram attenuation
Funding acknowledgements: type of funding sources: Private company. Main funding source(s): Biosense Webster Inc
Background: predictors of effective and safe lesion delivery in the human left ventricle have not been established. Generator impedance (GI) drop and electrogram (EGM) attenuation are indices which can be used as surrogates for ablation lesion parameters. Tissue pops are a complication of myocardial overheating preceded by a rise in GI and can have adverse consequences.
Purpose: to establish the relationships between Ablation Index (AI), Force Time Integral (FTI) and contact force with GI and EGM attenuation. To establish factors early in ablation that are predictive of a GI rise.
Methods: patients undergoing ventricular tachycardia ablation were recruited. All ablations were performed with contact force sensing surround flow catheters. Electrograms were collected pre and post ablation, with GI, AI, FTI measured during. Ablations were divided into low (LVM, < 0.50mV), intermediate (IVM, 0.51 – 1.50mV) and normal voltage (NVM, > 1.50mV) based upon pre-ablation bipolar EGM amplitude. Ablations with a 5% rise in GI from maximal drop were noted and predictors of this explored.
Results: in 15 patients, 402 ablations were analysed. Filtered percentage GI drop correlated with AI and FTI, (p < 0.0005, Spearman’s ρ = 0.522 and 0.524) and reached a plateau at 763AI and 713gs, a filtered GI drop of 7.5% (Figure 1). Shallower curves occurred progressively from NVM to IVM to LVM, (p < 0.0005), (Figure 2)
The bipolar EGM significantly attenuated with ablation, (median attenuation 0.14mV, [29.3%], p
Parameters associated with a GI rise during ablation were greater mean CF to maximum GI drop, (p = 0.002), greater initial percentage GI drop at 5 seconds, (p < 0.0005), power of 50W (p = 0.005), and perpendicular orientation, (p = 0.006). Percentage GI drop at 5 seconds was the best predictor of ablations with a GI rise, (AUCROC 0.773; 95% CI 0.708 – 0.838; optimal cut-off 2.44%). Mean contact force to maximum GI drop was a poor predictor of a GI rise (AUCROC 0.647; 95% CI 0.577 – 0.718, optimal cut-off 14.7g).
Conclusion: during left ventricular ablation, AI of 763 and FTI of 713gs should be targeted, with a lower impedance drop observed for more scarred myocardium. A GI drop of
Bates, A
41111d45-1589-4fdd-a5b4-1732a38857ac
Paisey, John Robert
76e6e4ec-eca8-46d4-b079-f4ffb7f953cf
Yue, A
95ca9d82-7c9b-40de-a5fc-d4213403a829
Banks, Phil
41d5666b-582d-4bfc-9f0a-78c84ffda976
Roberts, Paul R.
193431e8-f9d5-48d6-8f62-ed9052b2571d
Ullah, W
623bb2d2-b74f-46ca-bf12-e51108684dfc
19 May 2022
Bates, A
41111d45-1589-4fdd-a5b4-1732a38857ac
Paisey, John Robert
76e6e4ec-eca8-46d4-b079-f4ffb7f953cf
Yue, A
95ca9d82-7c9b-40de-a5fc-d4213403a829
Banks, Phil
41d5666b-582d-4bfc-9f0a-78c84ffda976
Roberts, Paul R.
193431e8-f9d5-48d6-8f62-ed9052b2571d
Ullah, W
623bb2d2-b74f-46ca-bf12-e51108684dfc
Bates, A, Paisey, John Robert, Yue, A, Banks, Phil, Roberts, Paul R. and Ullah, W
(2022)
Establishing safe, effective ablation in the diseased human ventricle: an analysis of generator impedance and electrogram attenuation.
EP Europace, 24 (Suppl. 1), [euac053.353].
(doi:10.1093/europace/euac053.353).
Abstract
Funding acknowledgements: type of funding sources: Private company. Main funding source(s): Biosense Webster Inc
Background: predictors of effective and safe lesion delivery in the human left ventricle have not been established. Generator impedance (GI) drop and electrogram (EGM) attenuation are indices which can be used as surrogates for ablation lesion parameters. Tissue pops are a complication of myocardial overheating preceded by a rise in GI and can have adverse consequences.
Purpose: to establish the relationships between Ablation Index (AI), Force Time Integral (FTI) and contact force with GI and EGM attenuation. To establish factors early in ablation that are predictive of a GI rise.
Methods: patients undergoing ventricular tachycardia ablation were recruited. All ablations were performed with contact force sensing surround flow catheters. Electrograms were collected pre and post ablation, with GI, AI, FTI measured during. Ablations were divided into low (LVM, < 0.50mV), intermediate (IVM, 0.51 – 1.50mV) and normal voltage (NVM, > 1.50mV) based upon pre-ablation bipolar EGM amplitude. Ablations with a 5% rise in GI from maximal drop were noted and predictors of this explored.
Results: in 15 patients, 402 ablations were analysed. Filtered percentage GI drop correlated with AI and FTI, (p < 0.0005, Spearman’s ρ = 0.522 and 0.524) and reached a plateau at 763AI and 713gs, a filtered GI drop of 7.5% (Figure 1). Shallower curves occurred progressively from NVM to IVM to LVM, (p < 0.0005), (Figure 2)
The bipolar EGM significantly attenuated with ablation, (median attenuation 0.14mV, [29.3%], p
Parameters associated with a GI rise during ablation were greater mean CF to maximum GI drop, (p = 0.002), greater initial percentage GI drop at 5 seconds, (p < 0.0005), power of 50W (p = 0.005), and perpendicular orientation, (p = 0.006). Percentage GI drop at 5 seconds was the best predictor of ablations with a GI rise, (AUCROC 0.773; 95% CI 0.708 – 0.838; optimal cut-off 2.44%). Mean contact force to maximum GI drop was a poor predictor of a GI rise (AUCROC 0.647; 95% CI 0.577 – 0.718, optimal cut-off 14.7g).
Conclusion: during left ventricular ablation, AI of 763 and FTI of 713gs should be targeted, with a lower impedance drop observed for more scarred myocardium. A GI drop of
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Published date: 19 May 2022
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Local EPrints ID: 487569
URI: http://eprints.soton.ac.uk/id/eprint/487569
ISSN: 1099-5129
PURE UUID: 7dcbcab2-435c-4e90-83ff-6110c5db462d
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Date deposited: 26 Feb 2024 19:07
Last modified: 17 Mar 2024 07:21
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Author:
A Bates
Author:
John Robert Paisey
Author:
A Yue
Author:
Phil Banks
Author:
Paul R. Roberts
Author:
W Ullah
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