235 Ventricular arrhythmias and cardiac autonomic function in patients with severe aortic valve stenosis before and after transcatheter aortic valve implantation

Aims Transcatheter aortic valve implantation (TAVI) has become a first-line treatment for most patients with severe aortic stenosis (AS) at intermediate/high surgical risk, resulting in significant improvement of clinical outcome. However, whether ventricular arrhythmias (VAs) or cardiac autonomic dysfunction influence outcome and whether TAVI has any effects on VAs and cardiac autonomic function is unknown. Thus, this study was aimed to investigate: I1) whether VAs and autonomic dysfunction [as assessed by heart rate variability (HRV)] are associated with clinical outcome and (2) the effects of TAVI on VAs and HRV, in patients with severe AS. Methods and results We studied 71 consecutive patients with severe aortic stenosis, admitted to our department of Cardiovascular Medicine to undergo TAVI. Patients with previous cardiac surgery, percutaneous coronary revascularization, acute coronary syndrome, and other significant heart valve disease or relevant comorbidities were excluded. The day before TAVI all patients underwent transthoracic Doppler echocardiography (TTDE), including global longitudinal strain (GLS) assessment, and 24-h ECG Holter monitoring (HM), to assess VA burden and HRV. A clinical follow-up was performed at 6 months from discharge. Furthermore, TTDE and 24-h HM were performed at follow-up in 38 (54.5%) and 29 (40.8%) patients, respectively. The primary endpoint was the occurrence of major clinical events (MACE), that include death, hospitalization for cardiac causes, pacemaker implantation, myocardial infarction, or stroke. Of 71 patients (48 female, mean age 80.5 ± 6.5 years) enrolled in the study, a 6-month clinical follow-up could be performed in 54 (76%). MACE occurred in 21 patients (38.9%), 8 of whom (14.8%) had hospitalization for heart failure, 13 (24%) required pacemaker implantation, and 3 had stroke (5.6%). Compared to baseline, at follow-up the mean aortic valve gradient (50.6 ± 11.4 vs. 8.38 ± 3.23 mmHg, P < 0.001), left ventricle (LV) mass index (131.4 ± 38.9 vs. 112.9 ± 28.3 g, P = 0.007), pulmonary artery systolic pressure (37.3 ± 5.8 vs. 30.2 ± 9.8 mmHg; P < 0.001), and the ratio of Doppler transmitral early filling velocity to tissue-Doppler early diastolic mitral annular velocity (E/e′) (16 ± 5.3 vs. 13.2 ± 4.7 P < 0.001) were significantly reduced. In contrast no changes were observed in VAs. The number of premature ventricular complexes (PVCs) at HM was indeed 1062 ± 3833 vs. 1206 ± 3322 at follow-up and baseline, respectively (P = 0.11). Furthermore, PVCs >10 per hour were detected in a higher number of patients at 6-month follow-up, compared to baseline (23.8% vs. 45.2%; P = 0.022). No significant differences were detected in most time-domain and frequency-domain HRV parameters. Unexpectedly, SDNNi (62.8 ± 19.1 vs. 41.9 ± 16.5; P = 0.008), RMSSD (54.6 ± 36.6 vs. 30.1 ± 17.9; P = 0.024) and VLF (56.4 ± 49.6 vs. 29 ± 12.7; P = 0.028) were found to be significantly higher at follow-up compared to baseline. Conclusions Our data show that, in patients with severe AS, TAVI does not seem to have significant effects on VA burden, despite echocardiographic and clinical improvement. Similarly, our data failed to show significant improvement of sympatho-vagal balance at follow-up compared to baseline in these patients.

Association between cardiac autonomic function and physical activity in patients at high risk of sudden cardiac death: a cohort study

Background High levels of physical activity (PA) and heart rate variability (HRV) are associated with cardiovascular benefits in patients with cardiovascular diseases. HRV, representing cardiac autonomic function, is positively associated with PA. However, the impacts of PA and cardiac autonomic function on cardiovascular outcomes were not analysed in the same study population. This lack of evidence supported our hypothesis that PA might contribute to cardiovascular benefits via enhanced cardiac autonomic function. Methods Patients with implantable cardioverter defibrillator (ICD) or cardiac resynchronisation therapy defibrillator (CRT-D) implantation were included from the SUMMIT registry. HRV and PA values were assessed during the first 30–60 days post device implantation using a continuous home monitoring system. Causal mediation analysis was conducted to explore the possible mediation function of HRV in the association of PA with long-term cardiac death and all-cause mortality in patients at a high risk of sudden cardiac death. Results Over a mean follow-up period of 47.7 months, 63 cardiac deaths (18.9%) and 85 all-cause death events (25.5%) were observed among 342 patients with ICD/CRT-D implantation. A positive linear association between HRV and PA was demonstrated and the β value of HRV was 0.842 (95% confidence interval [CI]: 0.261–1.425, P = 0.005) in the multiple linear regression analysis. Multivariable Cox proportional hazards analysis revealed that high levels of PA (≥11.0%) and HRV (≥75.9 ms) were independent protective factors against cardiac death (PA: hazard ratio [HR] = 0.273; 95% CI, 0.142–0.526, P < 0.001; HRV: HR = 0.224; 95% CI, 0.103–0.489, P < 0.001) and all-cause mortality (PA: HR = 0.299; 95% CI, 0.177–0.505, P < 0.001; HRV: HR = 0.394; 95% CI, 0.231–0.674, P = 0.001). Causal mediation analysis demonstrated partial mediation effects of PA that were mediated through HRV on cardiac death (mediation proportion = 12.9, 95%CI: 2.2–32.0%, P = 0.006) and all-cause mortality (mediation proportion = 8.2, 95%CI: 1.6–20.0%, P = 0.006). Conclusions HRV might be a modest mediator in the association between high levels of PA and the reduced risks of cardiac death and all-cause mortality in ICD/CRT-D recipients. This finding supports that enhanced cardiac autonomic function might be one of the underlying mechanisms by which regular PA contributes to cardiovascular benefits.

Efficacy of high-intensity interval training on cardiac autonomic modulation in cardiovascular diseases and lifestyle disorders: a systematic review and meta-analysis

The study aims to investigate the literature on the effect of high-intensity interval training (HIIT) on cardiac autonomic function in individuals with cardiovascular disease (CVD) and lifestyle disorders. We performed electronic database search from CENTRAL, WoS, Scopus, Pubmed, and PEDro up to 25th February 2021. Randomised control trials/quasi-experimental trials/cross-over trials that assessed the effects of HIIT with control/alternative treatment on cardiac autonomic control were included in this review. A total of 11 studies were included for qualitative analysis and among them, 8 were quantitatively analysed. A random-effect model of standardised mean difference (SMD) and mean difference of the respective outcome measures for cardiac autonomic control was determined. The findings of the qualitative analysis revealed the beneficial effects of HIIT on cardiac autonomic modulation. However, the majority of the studies had an unclear or high risk of bias for randomisation, concealment methods, and blinding of participants to the intervention that could have influenced the interpretation of the findings. The SMD revealed a significant effect of HIIT on standard deviation of N-N intervals (SDNN) (ms) [SMD: 0.40, 95% confidence interval (CI): -0.001 to 0.80, P=0.05], high frequency power (HF) (ms2) [0.46, 95% CI: 0.17 to 0.76, P=0.002], and ratio of low and high frequency power, (LF/HF) [-0.80, 95% CI: -1.27 to -0.33, P=0.0008]. In conclusion, HIIT may effectively modulate cardiac autonomic function by increasing parasympathetic dominance, sympathetic withdrawal, and sympathovagal balance in individuals with CVD and lifestyle disorders. The study has a PROSPERO registration number: CRD42021231225