The impact of obesity on defibrillation threshold testing, shock effectiveness and inadequate shock delivery in a bicentric cohort of S-ICD patients

https://doi.org/10.1007/s00392-024-02526-y

Christian Gold (Frankfurt am Main)1, F. Gausz (Szeged)2, A. Vagvolgyi (Szeged)2, J. Kupusovic (Frankfurt am Main)1, F. Hecker (Frankfurt am Main)3, M. Miklos (Szeged)2, V. Johnson (Frankfurt am Main)1, A. Falagkari (Frankfurt am Main)1, P. D. Culmann (Frankfurt am Main)1, F. Post (Frankfurt am Main)1, T. Szili-Torok (Szeged)2, M. Vamos (Szeged)2, D. Leistner (Frankfurt am Main)1, R. Wakili (Frankfurt am Main)1, J. W. Erath-Honold (Frankfurt am Main)1

1Universitätsklinikum Frankfurt Med. Klinik III - Kardiologie, Angiologie Frankfurt am Main, Deutschland; 2Universität Szeged / Medizinische Klinik Ablg. Elektrophysiologie Szeged, Ungarn; 3Universitätsklinikum Frankfurt Klinik für Thorax-, Herz- und Thorakale Gefäßchirurgie Frankfurt am Main, Deutschland

 

Background
Sudden cardiac death (SCD) is still one of the main reasons for cardiovascular death.  To prevent SCD, implantation of a defibrillator (ICD) proved to significantly reduce mortality in well selected patients. To overcome some of the typical complications associated with transvenous (TV) ICDs, the subcutaneous ICD (S-ICD) has been developed. However, due to the extra-thoracic position of the S-ICD some studies claim that a higher BMI might be a risk factor for ineffective threshold testing and possibly ineffective shock discharge.

Purpose
The aim of this study was to investigate whether obesity is a risk factor for ineffective shock testing (DFT) during implantation and for ineffective or inadequate shock delivery during follow-up.

Methods
In this international, bicentric study (University Hospital Frankfurt, Germany, University of Szeged, Hungary), an all-comers collective for S-ICD implantation from November 2013 to Mai 2024 was retrospectively analyzed. The patient cohort was divided in two groups due to their respective BMI (<30 kg/m² and ≥30 kg/m²) based on the WHO definition for obesity.

Results
A total of 106 patients were included. Obese patients (n=27, mean BMI 35.4 ± 4.1) suffered from diabetes mellitus more often (34.6% vs. 12.7%; p=0.02) compared to non-obese patients (n=79, mean BMI 24.3 ± 2.8). There were no differences between the obese and non-obese group concerning age (50.1 ± 16.6 vs. 49.6 ± 16.7 years), disease etiology of cardiac disease (ischemic etiology: 40.7% vs. 39.7%; non-ischemic etiology: 37.0% vs. 43.6%) and gender (70% vs. 75% male).
66 non-obese (84%) and 22 obese patients (82%) underwent DFT at implantation. All patients underwent successful DFT at ≤80J, shock impedance was significantly higher in the obese patient group (57 ohm vs. 78 ohm; p=0.02) yielding also a significant correlation between higher BMI and higher shock impedance (r=0.44; p<0.001). During the mean follow-up time of 45.56 months there was no statically significant difference between the two groups regarding first shock effectiveness (64% vs. 50%; Hazard ratio (HR)= 1.01 (0.9-1.15); p=0.82) and the occurrence of inappropriate shocks (36% vs. 50%; HR= 1.00 (0.88-1.14); p=0.96). Of note, numerically more lead complications occurred in obese patients (n=0 vs. n=2), while patients with S-ICD and lower BMI had numerically more device-associated infections necessitating revision during follow-up (n=5 vs. n=0) both not reaching statistical significance.

Conclusion
This retrospective bicentric study demonstrates that obesity is associated with significantly higher shock impedance during DFT at S-ICD implantation while shock efficacy remains stable during implantation and subsequent follow-up. Obese patients did not experience more inappropriate shocks suggesting that S-ICD provides a safe and effective therapy option also for at-risk patients with higher BMI values. Nevertheless, these results warrant validation in greater patient cohorts.
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