Accelerated Longitudinal Decline of Aerobic Capacity in Healthy Older Adults

doi:10.1161/CIRCULATIONAHA.105.545459

Published Online
on July 25, 2005

Circulation. 2005
Published online before print July 25, 2005, doi: 10.1161/CIRCULATIONAHA.105.545459

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Submitted on February 24, 2005
Revised on March 18, 2005
Accepted on April 1, 2005

Accelerated Longitudinal Decline of Aerobic Capacity in Healthy Older Adults

Jerome L. Fleg MD^*, Christopher H. Morrell PhD, Angelo G. Bos MD, PhD, Larry J. Brant PhD, Laura A. Talbot RN, PhD, Jeanette G. Wright , and Edward G. Lakatta MD

From the Laboratory of Cardiovascular Science (J.L.F., C.H.M., J.G.W., E.G.L.) and Laboratory of Clinical Investigation (A.G.B.) and Research Resources Branch (L.J.B.), Gerontology Research Center, National Institute on Aging, National Institutes of Health, Baltimore, Md; the Mathematical Sciences Department, Loyola College in Maryland, Baltimore, Md (C.H.M.); and the Graduate School of Nursing, Uniformed Services University of the Health Sciences, Bethesda, Md (L.A.T.).

^* To whom correspondence should be addressed. E-mail: flegj{at}nhlbi.nih.gov.

Background--The ability of older persons to function independentlyis dependent largely on the maintenance of sufficient aerobiccapacity and strength to perform daily activities. Althoughpeak aerobic capacity is widely recognized to decline with age,its rate of decline has been estimated primarily from cross-sectionalstudies that may provide misleading, overly optimistic estimatesof aging changes.

Methods and Results--To determine longitudinalrate of change in aerobic capacity and the influence of age,gender, and physical activity on these changes, we performedserial measurements of peak treadmill oxygen consumption (peakVO₂) in 375 women and 435 men ages 21 to 87 years from the BaltimoreLongitudinal Study of Aging, a community-dwelling cohort freeof clinical heart disease, over a median follow-up period of7.9 years. A linear mixed-effects regression model was usedto calculate the predicted longitudinal 10-year rate of changein peak VO₂, expressed in milliliters per minute, for each agedecade from the 20s through the 70s after adjustment for self-reportedleisure-time physical activity. A longitudinal decline in peakVO₂ was observed in each of the 6 age decades in both sexes;however, the rate of decline accelerated from 3% to 6% per 10years in the 20s and 30s to >20% per 10 years in the 70sand beyond. The rate of decline for each decade was larger inmen than in women from the 40s onward. Similar longitudinalrates of decline prevailed when peak VO₂ was indexed per kilogramof body weight or per kilogram of fat-free mass and in all quartilesof self-reported leisure-time physical activity. When the componentsof peak VO₂ were examined, the rate of longitudinal declineof the oxygen pulse (ie, the O₂ utilization per heart beat)mirrored that of peak VO₂, whereas the longitudinal rate ofheart rate decline averaged only 4% to 6% per 10 years, andaccelerated only minimally with age.

Conclusions--The longitudinalrate of decline in peak VO₂ in healthy adults is not constantacross the age span in healthy persons, as assumed by cross-sectionalstudies, but accelerates markedly with each successive age decade,especially in men, regardless of physical activity habits. Theaccelerated rate of decline of peak aerobic capacity has substantialimplications with regard to functional independence and qualityof life, not only in healthy older persons, but particularlywhen disease-related deficits are superimposed.

Key words: aging • exercise • follow-up studies

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