Charlotte A Carrington1, Michael J White. 1. School of Sport and Exercise Sciences, University of Birmingham, Edgbaston, Birmingham B15 2TT, UK. C.A.Carrington@bham.ac.uk
Abstract
BACKGROUND: In young people, cardiovagal baroreflex sensitivity alters during isometric exercise. We investigated whether the reduced resting baroreflex sensitivity seen with increasing age is similarly altered during exercise. METHODS: Cardiovagal baroreflex sensitivity was examined in 8 young (age+/-SEM, 25+/-1.7 years) and 9 older (61+/-3.0 years) subjects, using sequence analysis during voluntary and electrically evoked isometric exercise (at 30% maximum voluntary strength) and during subsequent post-exercise circulatory occlusion. RESULTS: In all phases of both conditions, baroreflex sensitivity was significantly reduced in the older group compared with the young group. (Median (interquartile range), voluntary 7.0 (4.4) vs 3.6 (3.8) ms x mmHg(-1), post-exercise circulatory occlusion 9.0 (8.2) vs 4.6 (4.0) ms x mmHg(-1); electrically evoked 6.6 (10.6) vs 3.2 (3.6) ms x mmHg(-1), post-exercise circulatory occlusion 8.3 (7.7) vs 2.9 (2.2) ms x mmHg(-1), young vs older respectively; P<0.05.) There was a marked rightward shift (resetting) of the baroreflex during exercise with the exception of electrically evoked in the older group. CONCLUSION: Our data demonstrate that the reduction in baroreflex sensitivity in older people is maintained during exercise and during post-exercise circulatory occlusion. Resetting of the baroreflex in the older subjects during moderate voluntary isometric calf exercise is largely the result of central command.
BACKGROUND: In young people, cardiovagal baroreflex sensitivity alters during isometric exercise. We investigated whether the reduced resting baroreflex sensitivity seen with increasing age is similarly altered during exercise. METHODS: Cardiovagal baroreflex sensitivity was examined in 8 young (age+/-SEM, 25+/-1.7 years) and 9 older (61+/-3.0 years) subjects, using sequence analysis during voluntary and electrically evoked isometric exercise (at 30% maximum voluntary strength) and during subsequent post-exercise circulatory occlusion. RESULTS: In all phases of both conditions, baroreflex sensitivity was significantly reduced in the older group compared with the young group. (Median (interquartile range), voluntary 7.0 (4.4) vs 3.6 (3.8) ms x mmHg(-1), post-exercise circulatory occlusion 9.0 (8.2) vs 4.6 (4.0) ms x mmHg(-1); electrically evoked 6.6 (10.6) vs 3.2 (3.6) ms x mmHg(-1), post-exercise circulatory occlusion 8.3 (7.7) vs 2.9 (2.2) ms x mmHg(-1), young vs older respectively; P<0.05.) There was a marked rightward shift (resetting) of the baroreflex during exercise with the exception of electrically evoked in the older group. CONCLUSION: Our data demonstrate that the reduction in baroreflex sensitivity in older people is maintained during exercise and during post-exercise circulatory occlusion. Resetting of the baroreflex in the older subjects during moderate voluntary isometric calf exercise is largely the result of central command.
Authors: Barbara A Horwitz; Sat M Chau; Jock S Hamilton; Christine Song; Julia Gorgone; Marissa Saenz; John M Horowitz; Chao-Yin Chen Journal: Am J Physiol Regul Integr Comp Physiol Date: 2013-07-31 Impact factor: 3.619
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