Correlation analysis of deep learning methods in S‐ICD screening
Correlation analysis of deep learning methods in S‐ICD screening
Background
Machine learning methods are used in the classification of various cardiovascular diseases through ECG data analysis. The concept of varying subcutaneous implantable cardiac defibrillator (S-ICD) eligibility, owing to the dynamicity of ECG signals, has been introduced before. There are practical limitations to acquiring longer durations of ECG signals for S-ICD screening. This study explored the potential use of deep learning methods in S-ICD screening.
Methods
This was a retrospective study. A deep learning tool was used to provide descriptive analysis of the T:R ratios over 24 h recordings of S-ICD vectors. Spearman's rank correlation test was used to compare the results statistically to those of a “gold standard” S-ICD simulator.
Results
A total of 14 patients (mean age: 63.7 ± 5.2 years, 71.4% male) were recruited and 28 vectors were analyzed. Mean T:R, standard deviation of T:R, and favorable ratio time (FVR)—a new concept introduced in this study—for all vectors combined were 0.21 ± 0.11, 0.08 ± 0.04, and 79 ± 30%, respectively. There were statistically significant strong correlations between the outcomes of our novel tool and the S-ICD simulator (p < .001).
Conclusion
Deep learning methods could provide a practical software solution to analyze data acquired for longer durations than current S-ICD screening practices. This could help select patients better suited for S-ICD therapy as well as guide vector selection in S-ICD eligible patients. Further work is needed before this could be translated into clinical practice.
ElRefai, Mohamed
28916fea-4687-4d4b-99aa-961e73b710ab
Abouelasaad, Mohamed
62c5bd28-9c5f-4287-8b63-b25b2a2b7966
Wiles, Benedict M.
a42ba978-24c3-4533-8eca-498102004477
Dunn, Anthony J.
161d9c8e-6813-4909-95ea-6c11bbbca287
Coniglio, Stefano
03838248-2ce4-4dbc-a6f4-e010d6fdac67
Zemkoho, Alain B.
30c79e30-9879-48bd-8d0b-e2fbbc01269e
Morgan, John
7bd04ada-ca61-4a2c-b1cf-1750ffa9d89c
Roberts, Paul R.
32fe1d97-dc53-49a1-9b4a-f866d0b7d13d
1 July 2023
ElRefai, Mohamed
28916fea-4687-4d4b-99aa-961e73b710ab
Abouelasaad, Mohamed
62c5bd28-9c5f-4287-8b63-b25b2a2b7966
Wiles, Benedict M.
a42ba978-24c3-4533-8eca-498102004477
Dunn, Anthony J.
161d9c8e-6813-4909-95ea-6c11bbbca287
Coniglio, Stefano
03838248-2ce4-4dbc-a6f4-e010d6fdac67
Zemkoho, Alain B.
30c79e30-9879-48bd-8d0b-e2fbbc01269e
Morgan, John
7bd04ada-ca61-4a2c-b1cf-1750ffa9d89c
Roberts, Paul R.
32fe1d97-dc53-49a1-9b4a-f866d0b7d13d
ElRefai, Mohamed, Abouelasaad, Mohamed, Wiles, Benedict M., Dunn, Anthony J., Coniglio, Stefano, Zemkoho, Alain B., Morgan, John and Roberts, Paul R.
(2023)
Correlation analysis of deep learning methods in S‐ICD screening.
Annals of Noninvasive Electrocardiology, 28 (4).
(doi:10.1111/anec.13056).
Abstract
Background
Machine learning methods are used in the classification of various cardiovascular diseases through ECG data analysis. The concept of varying subcutaneous implantable cardiac defibrillator (S-ICD) eligibility, owing to the dynamicity of ECG signals, has been introduced before. There are practical limitations to acquiring longer durations of ECG signals for S-ICD screening. This study explored the potential use of deep learning methods in S-ICD screening.
Methods
This was a retrospective study. A deep learning tool was used to provide descriptive analysis of the T:R ratios over 24 h recordings of S-ICD vectors. Spearman's rank correlation test was used to compare the results statistically to those of a “gold standard” S-ICD simulator.
Results
A total of 14 patients (mean age: 63.7 ± 5.2 years, 71.4% male) were recruited and 28 vectors were analyzed. Mean T:R, standard deviation of T:R, and favorable ratio time (FVR)—a new concept introduced in this study—for all vectors combined were 0.21 ± 0.11, 0.08 ± 0.04, and 79 ± 30%, respectively. There were statistically significant strong correlations between the outcomes of our novel tool and the S-ICD simulator (p < .001).
Conclusion
Deep learning methods could provide a practical software solution to analyze data acquired for longer durations than current S-ICD screening practices. This could help select patients better suited for S-ICD therapy as well as guide vector selection in S-ICD eligible patients. Further work is needed before this could be translated into clinical practice.
Text
Noninvasive Electrocardiol - 2023 - ElRefai - Correlation analysis of deep learning methods in S‐ICD screening
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More information
Accepted/In Press date: 26 February 2023
e-pub ahead of print date: 15 March 2023
Published date: 1 July 2023
Identifiers
Local EPrints ID: 508658
URI: http://eprints.soton.ac.uk/id/eprint/508658
ISSN: 1542-474X
PURE UUID: ac9587fb-8aa9-4070-8118-fa52cfd8e2c9
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Date deposited: 28 Jan 2026 18:13
Last modified: 31 Jan 2026 05:20
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Contributors
Author:
Mohamed ElRefai
Author:
Mohamed Abouelasaad
Author:
Benedict M. Wiles
Author:
Anthony J. Dunn
Author:
Paul R. Roberts
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