BACKGROUND: Left ventricular (LV) mass has a continuous relation with cardiovascular risk, and regression of LV mass induced by pharmacological treatment is associated with improved prognosis. Therefore, early identification of patients with a large LV mass is desired. We developed a model to predict LV mass in individual hypertensives at high cardiovascular risk. DESIGN AND METHODS: We analyzed data of 536 hypertensives with symptomatic extracardiac atherosclerotic disease or marked risk factors for atherosclerosis from a cross-sectional study in a tertiary referral center. LV mass was measured by cardiac MRI. We developed the prediction rule with multivariable linear regression analysis and stepwise backward elimination. Internal validation was assessed with bootstrap sampling to obtain an estimate of model performance (R²) that may be expected for new patients. RESULTS: Important predictors for LV mass included sex, height, body mass index, systolic blood pressure, and previous aneurysm of the abdominal aorta. R² of the prediction model was 45% after internal validation, which was considerably higher than the R² of previously reported models (range 1-38%). Addition of electrocardiography data showed limited improvement of the model performance (R²=47%). CONCLUSION: We present a prediction model for LV mass in hypertensives at high cardiovascular risk. After external validation, this model may be used in clinical practice to estimate LV mass for early identification of large LV mass. The predictions of the model may support appropriate medical care in the prevention of cardiovascular disease.
BACKGROUND: Left ventricular (LV) mass has a continuous relation with cardiovascular risk, and regression of LV mass induced by pharmacological treatment is associated with improved prognosis. Therefore, early identification of patients with a large LV mass is desired. We developed a model to predict LV mass in individual hypertensives at high cardiovascular risk. DESIGN AND METHODS: We analyzed data of 536 hypertensives with symptomatic extracardiac atherosclerotic disease or marked risk factors for atherosclerosis from a cross-sectional study in a tertiary referral center. LV mass was measured by cardiac MRI. We developed the prediction rule with multivariable linear regression analysis and stepwise backward elimination. Internal validation was assessed with bootstrap sampling to obtain an estimate of model performance (R²) that may be expected for new patients. RESULTS: Important predictors for LV mass included sex, height, body mass index, systolic blood pressure, and previous aneurysm of the abdominal aorta. R² of the prediction model was 45% after internal validation, which was considerably higher than the R² of previously reported models (range 1-38%). Addition of electrocardiography data showed limited improvement of the model performance (R²=47%). CONCLUSION: We present a prediction model for LV mass in hypertensives at high cardiovascular risk. After external validation, this model may be used in clinical practice to estimate LV mass for early identification of large LV mass. The predictions of the model may support appropriate medical care in the prevention of cardiovascular disease.
Authors: Daniel Moreira-Gonçalves; Tiago Henriques-Coelho; Hélder Fonseca; Rita Ferreira; Ana Isabel Padrão; Cátia Santa; Sara Vieira; Ana Filipa Silva; Francisco Amado; Adelino Leite-Moreira; José Alberto Duarte Journal: J Physiol Date: 2015-06-23 Impact factor: 5.182
Authors: Petter Bjornstad; Uyen Truong; Laura Pyle; Jennifer L Dorosz; Melanie Cree-Green; Amy Baumgartner; Gregory Coe; Judith G Regensteiner; Jane E B Reusch; Kristen J Nadeau Journal: J Diabetes Complications Date: 2016-04-13 Impact factor: 2.852