RESUMO
INTRODUCTION: An increased body mass index (BMI) (>25â¯kg/m2) is associated with a wide range of electrocardiographic changes. However, the association between electrocardiographic changes and BMI in healthy young individuals with a normal BMI (18.5-25â¯kg/m2) is unknown. The aim of this study was to evaluate the association between BMI and electrocardiographic parameters. METHODS: Data from 1,290 volunteers aged 18 to 30 years collected at our centre were analysed. Only subjects considered healthy by a physician after review of collected data with a normal BMI and in sinus rhythm were included in the analysis. Subjects with a normal BMI (18.5-25â¯kg/m2) were divided into BMI quartiles analysis and a backward multivariate regression analysis with a normal BMI as a continuous variable was performed. RESULTS: Mean age was 22.7⯱ 3.0 years, mean BMI was 22.0, and 73.4% were male. There were significant differences between the BMI quartiles in terms of maximum P-wave duration, P-wave balance, total P-wave area in lead V1, PR-interval duration, and heart axis. In the multivariate model maximum P-wave duration (standardised coefficient (SC)â¯= +0.112, Pâ¯< 0.001), P-wave balance in lead V1 (SCâ¯= +0.072, Pâ¯< 0.001), heart axis (SCâ¯= -0.164, Pâ¯< 0.001), and Sokolow-Lyon voltage (SCâ¯= -0.097, Pâ¯< 0.001) were independently associated with BMI. CONCLUSION: Increased BMI was related with discrete electrocardiographic alterations including an increased P-wave duration, increased P-wave balance, a leftward shift of the heart axis, and decreased Sokolow-Lyon voltage on a standard twelve lead electrocardiogram in healthy young individuals with a normal BMI.