BACKGROUND AND AIMS: Obesity is one of the most common diseases in the world. Particularly in elderly subjects, the effects of weight loss on cardiac functions have not been previously investigated by means of pulsed wave tissue doppler imaging (PWTDI). Using PWTDI, we examined the effects of weight loss on cardiac functions and left ventricular (LV) mass in obese geriatric women. METHODS: Thirteen obese women aged 66-83 years (mean age 71.2+/-4.9 yrs) with a body mass index 35.6-49 kg/m2 (mean body mass index 39.9+/-4.3 kg/m2) were evaluated by echocardiography and PWTDI. Only subjects with uncomplicated obesity were included. All measurements, including anthropometric variables, systolic and diastolic indices, and LV mass, were made before and after a 6-month Orlistat plus hypocaloric diet. Myocardial systolic wave (Sm) velocity, isovolumic acceleration (IVA), myocardial precontraction time (PCTm) and the PCTm to contraction time (CTm) ratio were calculated as systolic indices. Early diastolic wave (Em), late diastolic wave (Am), Em to Am ratio, myocardial relaxation time (RTm), deceleration time (DT) and isovolumic relaxation time (IVRT) were determined as diastolic measurements. RESULTS: Subjects lost an average of 8.4+/-1.2 kg. LV mass decreased significantly after weight loss (p<0.001). In addition, IVRT decreased significantly (p=0.038). Only RTm decreased significantly (p=0.016), whereas other PWTDI parameters of LV remained the same. In the right ventricle, Sm velocity, IVA, Em, and Am velocities were similar. However, the PCTm to Am ratio decreased significantly (p=0.006), and the Em to Am ratio increased (p=0.04) and RTm decreased significantly (p=0.016) after weight loss. CONCLUSIONS: In obese geriatric women, weight loss improves ventricular diastolic functions and decreases LV mass. It also contributes to partial improvement in right ventricular systolic function.
BACKGROUND AND AIMS: Obesity is one of the most common diseases in the world. Particularly in elderly subjects, the effects of weight loss on cardiac functions have not been previously investigated by means of pulsed wave tissue doppler imaging (PWTDI). Using PWTDI, we examined the effects of weight loss on cardiac functions and left ventricular (LV) mass in obese geriatric women. METHODS: Thirteen obesewomen aged 66-83 years (mean age 71.2+/-4.9 yrs) with a body mass index 35.6-49 kg/m2 (mean body mass index 39.9+/-4.3 kg/m2) were evaluated by echocardiography and PWTDI. Only subjects with uncomplicated obesity were included. All measurements, including anthropometric variables, systolic and diastolic indices, and LV mass, were made before and after a 6-month Orlistat plus hypocaloric diet. Myocardial systolic wave (Sm) velocity, isovolumic acceleration (IVA), myocardial precontraction time (PCTm) and the PCTm to contraction time (CTm) ratio were calculated as systolic indices. Early diastolic wave (Em), late diastolic wave (Am), Em to Am ratio, myocardial relaxation time (RTm), deceleration time (DT) and isovolumic relaxation time (IVRT) were determined as diastolic measurements. RESULTS: Subjects lost an average of 8.4+/-1.2 kg. LV mass decreased significantly after weight loss (p<0.001). In addition, IVRT decreased significantly (p=0.038). Only RTm decreased significantly (p=0.016), whereas other PWTDI parameters of LV remained the same. In the right ventricle, Sm velocity, IVA, Em, and Am velocities were similar. However, the PCTm to Am ratio decreased significantly (p=0.006), and the Em to Am ratio increased (p=0.04) and RTm decreased significantly (p=0.016) after weight loss. CONCLUSIONS: In obese geriatric women, weight loss improves ventricular diastolic functions and decreases LV mass. It also contributes to partial improvement in right ventricular systolic function.
Authors: Aseel Alfuhied; Gaurav S Gulsin; Lavanya Athithan; Emer M Brady; Kelly Parke; Joseph Henson; Emma Redman; Anna-Marie Marsh; Thomas Yates; Melanie J Davies; Gerry P McCann; Anvesha Singh Journal: Int J Cardiovasc Imaging Date: 2022-03-02 Impact factor: 2.357
Authors: Juan Serrano-Ferrer; Guillaume Walther; Edward Crendal; Agnès Vinet; Frédéric Dutheil; Geraldine Naughton; Bruno Lesourd; Robert Chapier; Daniel Courteix; Philippe Obert Journal: Cardiovasc Diabetol Date: 2014-08-03 Impact factor: 9.951