Body surface potential mapping is no more sensitive than 12-lead ECG for measuring ventricular repolarisation in obese individuals

Background: Obesity is associated with pro-arrhythmic electrocardiographic (ECG) abnormalities, such as corrected QT (QTc) prolongation and increased QT dispersion (QTd), which confer a greater risk of ventricular arrhythmia and sudden cardiac death. Few studies have assessed specific measures of repolarisation (T-peak-to-T-end interval (Tpe) or the Tpe/QT, Tpe/QTc, Tpe/JT or Tpe/JTc ratios) in obesity. Owing to greater thoracic coverage, body surface potential mapping (BSPM) may provide greater sensitivity than 12-lead ECG to assess repolarisation abnormalities associated with obesity. Aims: We aimed to assess differences in measures of ventricular repolarisation and its dispersion between obese and normal-weight individuals using 12-lead ECG. Secondly, we aimed to perform BSPM at rest and during recovery from exercise to assess whether BSPM is more sensitive than 12-lead ECG for detecting differences in ventricular repolarisation between obese and normal-weight individuals. Methods: 12-lead ECGs from 22 obese (BMI-35.6±6.7) and 44 age-sex matched normal-weight (BMI-22.5±1.6) individuals were analysed. 252-lead BSPM was performed in 6 obese (BMI-39.8±9.1) and 6 age-sex matched normal-weight (BMI-23.8±0.9) individuals at rest and 2 minutes following exercise. QTd was defined as the standard deviation of QT intervals (QTstd). Results: Obese individuals had significantly prolonged QT (380±25 vs 367±26, p