BACKGROUND: Previous studies have shown that elastic properties of the aorta decrease, while left atrial dimensions, the contribution of left atrial systole to left ventricular filling, and left ventricular mass increase with age. In most studies, however, aortic function, and ventricular and atrial parameters were performed in different populations, and thus, the earliest manifestation of aging in the cardiovascular system is not known. The present study was undertaken to define the earliest cardiovascular abnormality(ies) occurring in the cardiovascular system with age. PATIENTS AND METHOD: In 181 normotensive subjects (147 females and 34 males) age 22-64 years, left ventricular mass, volumes, function and work (echocardiography and blood pressure), left atrial volumes and stroke volume (biplane area-length method by echo), pulse wave velocity (PWV) (carotid to femoral artery, Doppler), and left atrial kinetic energy were measured simultaneously: left atrial kinetic energy = 1/2 mv2, where m = left atrial stroke volume x 1.06 (blood specific gravity), v = transmitral A wave velocity. Regression analyses were performed to correlate all measured cardiovascular parameters with age. RESULTS: Pulse wave velocity (r = 0.51), left atrial kinetic energy (r = 0.42), and A wave velocity (r = 0.38) were correlated to age, while left ventricular mass, function and work were not. Multiple regression analysis among ten clinical and echocardiographic parameters demonstrated that only age contributed independently to pulse wave velocity; only age and pulse wave velocity were contributed independently to left atrial kinetic energy; and only age contributed independently to A wave velocity. CONCLUSIONS: The data demonstrate that age-related alterations in aortic function and left atrial work (left atrial kinetic energy) can be defined prior to changes in left ventricular structure and systolic function. Simultaneous studies of left atrial, left ventricular, and aortic function are required to better understand the effect of aging on the cardiovascular system.
BACKGROUND: Previous studies have shown that elastic properties of the aorta decrease, while left atrial dimensions, the contribution of left atrial systole to left ventricular filling, and left ventricular mass increase with age. In most studies, however, aortic function, and ventricular and atrial parameters were performed in different populations, and thus, the earliest manifestation of aging in the cardiovascular system is not known. The present study was undertaken to define the earliest cardiovascular abnormality(ies) occurring in the cardiovascular system with age. PATIENTS AND METHOD: In 181 normotensive subjects (147 females and 34 males) age 22-64 years, left ventricular mass, volumes, function and work (echocardiography and blood pressure), left atrial volumes and stroke volume (biplane area-length method by echo), pulse wave velocity (PWV) (carotid to femoral artery, Doppler), and left atrial kinetic energy were measured simultaneously: left atrial kinetic energy = 1/2 mv2, where m = left atrial stroke volume x 1.06 (blood specific gravity), v = transmitral A wave velocity. Regression analyses were performed to correlate all measured cardiovascular parameters with age. RESULTS: Pulse wave velocity (r = 0.51), left atrial kinetic energy (r = 0.42), and A wave velocity (r = 0.38) were correlated to age, while left ventricular mass, function and work were not. Multiple regression analysis among ten clinical and echocardiographic parameters demonstrated that only age contributed independently to pulse wave velocity; only age and pulse wave velocity were contributed independently to left atrial kinetic energy; and only age contributed independently to A wave velocity. CONCLUSIONS: The data demonstrate that age-related alterations in aortic function and left atrial work (left atrial kinetic energy) can be defined prior to changes in left ventricular structure and systolic function. Simultaneous studies of left atrial, left ventricular, and aortic function are required to better understand the effect of aging on the cardiovascular system.
Authors: Avan Suinesiaputra; Pierre Ablin; Xenia Alba; Martino Alessandrini; Jack Allen; Wenjia Bai; Serkan Cimen; Peter Claes; Brett R Cowan; Jan D'hooge; Nicolas Duchateau; Jan Ehrhardt; Alejandro F Frangi; Ali Gooya; Vicente Grau; Karim Lekadir; Allen Lu; Anirban Mukhopadhyay; Ilkay Oksuz; Nripesh Parajali; Xavier Pennec; Marco Pereanez; Catarina Pinto; Paolo Piras; Marc-Michel Rohe; Daniel Rueckert; Dennis Saring; Maxime Sermesant; Kaleem Siddiqi; Mahdi Tabassian; Luciano Teresi; Sotirios A Tsaftaris; Matthias Wilms; Alistair A Young; Xingyu Zhang; Pau Medrano-Gracia Journal: IEEE J Biomed Health Inform Date: 2017-01-17 Impact factor: 5.772