Deep behavioural representation learning reveals risk profiles for malignant ventricular arrhythmias.
Maarten Z H KolkDiana My FrodiJoss LangfordTariq O AndersenPeter Karl JacobsenNiels RisumHanno L TanJesper Hastrup SvendsenReinoud E KnopsSøren Zoega DiederichsenFleur V Y TjongPublished in: NPJ digital medicine (2024)
We aimed to identify and characterise behavioural profiles in patients at high risk of SCD, by using deep representation learning of day-to-day behavioural recordings. We present a pipeline that employed unsupervised clustering on low-dimensional representations of behavioural time-series data learned by a convolutional residual variational neural network (ResNet-VAE). Data from the prospective, observational SafeHeart study conducted at two large tertiary university centers in the Netherlands and Denmark were used. Patients received an implantable cardioverter-defibrillator (ICD) between May 2021 and September 2022 and wore wearable devices using accelerometer technology during 180 consecutive days. A total of 272 patients (mean age of 63.1 ± 10.2 years, 81% male) were eligible with a total sampling of 37,478 days of behavioural data (138 ± 47 days per patient). Deep representation learning identified five distinct behavioural profiles: Cluster A (n = 46) had very low physical activity levels and a disturbed sleep pattern. Cluster B (n = 70) had high activity levels, mainly at light-to-moderate intensity. Cluster C (n = 63) exhibited a high-intensity activity profile. Cluster D (n = 51) showed above-average sleep efficiency. Cluster E (n = 42) had frequent waking episodes and poor sleep. Annual risks of malignant ventricular arrhythmias ranged from 30.4% in Cluster A to 9.8% and 9.5% for Clusters D-E, respectively. Compared to low-risk profiles (D-E), Cluster A demonstrated a three-to-four fold increased risk of malignant ventricular arrhythmias adjusted for clinical covariates (adjusted HR 3.63, 95% CI 1.54-8.53, p < 0.001). These behavioural profiles may guide more personalised approaches to ventricular arrhythmia and SCD prevention.
Keyphrases
- high intensity
- physical activity
- neural network
- end stage renal disease
- heart failure
- ejection fraction
- left ventricular
- newly diagnosed
- electronic health record
- chronic kidney disease
- catheter ablation
- peritoneal dialysis
- sleep quality
- resistance training
- heart rate
- patient reported outcomes
- atrial fibrillation
- data analysis
- cross sectional
- patient reported
- artificial intelligence