Age-dependent prognostic value of exercise capacity and derivation of fitness-associated biologic age

Authors

Michael J. Blaha
Rupert K. Hung
Zeina Dardari
David I. Feldman
Seamus P. Whelton
Khurram Nasir
Roger S. Blumenthal
Clinton Brawner, Henry Ford HealthFollow
Jonathan K. Ehrman, Henry Ford HealthFollow
Steven J. Keteyian, Henry Ford HealthFollow
Mouaz H. Al-Mallah, Henry Ford HealthFollow

Recommended Citation

Blaha MJ, Hung RK, Dardari Z, Feldman DI, Whelton SP, Nasir K, Blumenthal RS, Brawner CA, Ehrman JK, Keteyian SJ, Al-Mallah MH. Age-dependent prognostic value of exercise capacity and derivation of fitness-associated biologic age. Heart. 2016 ;102(6):431-7.

Document Type

Article

Publication Date

3-1-2016

Publication Title

Heart (British Cardiac Society)

Abstract

OBJECTIVE: Given the aging population and prevalence of sedentary behaviour in the USA, we investigated the impact of differences in exercise capacity associated with age on long-term outcomes. We derived fitness-associated 'biologic age' as a tool to encourage positive lifestyle changes.

METHODS: This retrospective cohort study included 57085 patients without established coronary artery disease or heart failure (median age 53 years, 49% women, 29% black) who underwent clinically-referred treadmill stress testing at the Henry Ford Health System from 1991 to 2009. Patients were followed for 10.4±5 and 5.4±4 years for all-cause mortality and myocardial infarction (MI), respectively. We calculated hazard ratios associated with exercise capacity by age deciles using Cox regression models, adjusting for demographic and haemodynamic data, medical history, and medication use. Fitness-associated 'biologic age' was derived as the chronologic age with equivalent mortality or MI risk.

RESULTS: There were 6356 deaths and 1646 MIs during follow-up. Exercise capacity declined with increasing age. Higher exercise capacity was strongly associated with greater survival, with per-MET HR ranging from 0.82 (95% CI 0.78 to 0.86) in patients under 40 years of age, to 0.88 (95% CI 0.87 to 0.90) in those over 70 years of age. Biologic age varied markedly-up to three decades-within each age decile, and was a stronger predictor of mortality (C-statistic 0.81 vs 0.77) and MI (C-statistic 0.72 vs 0.68) than chronologic age.

CONCLUSIONS: Higher exercise capacity remained a powerful predictor of survival despite lower average exercise capacity at older ages, reinforcing its importance in patients of all ages. Fitness-associated biologic age was a stronger predictor of survival than chronologic age, and may be a useful clinical tool for facilitating patient discussions regarding the impact of exercise capacity on long-term risk.

Medical Subject Headings

Adult; Age Factors; Aged; Aging; Cause of Death; Exercise Tolerance; Female; Follow-Up Studies; Geriatric Assessment; Humans; Male; Middle Aged; Myocardial Infarction; Physical Fitness; Prognosis; Retrospective Studies; Survival Rate; Time Factors; United States

PubMed ID

26732181

Volume

102

Issue

6

First Page

431

Last Page

437