Summary
The evidence suggesting that regular exercise can help to prevent coronary artery disease is overwhelming. While some studies have suggested that exercise will not provide health benefits, our inactive population needs to pay heed to the substantial data presented by the many international health organisations suggesting the opposite. The American Heart Association Medical/Scientific Statement on Exercise emphasised the large role regular aerobic physical activity plays in the prevention of cardiovascular disease. Several human studies have also demonstrated the positive effects of long term exercise on the human heart. For example, it has been shown that a consistent exercise programme can lessen the impact of atherosclerotic plaques through increasing coronary artery diameter. Echocardiography studies on a training group of competitive swimmers have shown that exercise training can induce rapid changes in left ventricular dimensions and mass, which can ultimately lead to an increased stroke volume and increased maximal oxygen consumption. Studies on sedentary individuals have also demonstrated an increase in maximal oxygen uptake with a regular endurance exercise programme. In addition to these health benefits, habitual dynamic exercise can also decrease the likelihood of a cardiac event. Others have demonstrated a 50% lower incidence of coronary events in those individuals maintaining rigorous activity 2 days a week. With the preponderance of evidence revealing the health benefits of habitual exercise, it is striking to learn that more than 50% of the US population exercises for less than 20 minutes, 3 days a week. The widespread nature of this sedentary lifestyle makes inactivity an attributable fraction of the total risk factors associated with cardiac disease. The amount of exercise needed to reduce the risk of coronary artery disease is a minimum aerobic workout of 30 minutes, 4 to 5 times a week, such as a vigorous walk. Comprehensive programmes promoting exercise training should be implemented at a level appropriate to an individual’s capacity and need.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Adams TD, Yanowitz FG, Fischer AG, Ridges JD, et al. Noninvasive evaluation of exercise training in college-age men. Circulation 64: 958–964, 1981
American Association of Cardiovascular and Pulmonary Rehabilitation. Guidelines for cardiac rehabilitation programs, p. 11, Human Kinetics Publishers, Champaign, 1991
American College of Sports Medicine. Position Stand. The recommended quantity and quality of exercise for developing and maintaining cardiorespiratory and muscular fitness in healthy adults. Journal of Cardiopulmonary Rehabilitation 10: 235–245, 1990
Blackburn H, Jacobs DR. Physical activity and the risk of coronary heart disease. New England Journal of Medicine 319: 1217–1219, 1988
Blackburn H, Taylor HL, Keys A. Coronary heart disease in seven countries. Circulation 41: 154, 1970
Blair SN, Cooper KH, Gibbons LW, Pollock M. Changes in coronary heart disease risk factors associated with increased treadmill time in 753 men. American Journal of Epidemiology 118: 352–359, 1983
Blair SN, Kohl HW, Paffenbarger RS, Gibbons L, Cooper K. Physical fitness and all-cause mortality. Journal of the American Medical Association 262: 2395–2401, 1989
Blumenthal JA, Siegel WQ, Appelbaum M. Failure to exercise to reduce blood pressure in patients with mild hypertension: results of a randomized controlled trial. Journal of the American Medical Association 266: 2098–2104, 1991
Brill PB, Burkhalter HE, Kohl HW. The impact of previous athleticism on exercise habits, physical fitness, and coronary heart disease risk factors in middle-aged men. Research Quarterly for Exercise and Sport 60: 202–215, 1989
Bruce RA, Kusumi F, Hosmer D. Maximal oxygen intake and nomographic assessment of functional aerobic impairment in cardiovascular disease. American Heart Journal 85: 546–551, 1973
Costas R, Garcia-Palmieri MR, Nazario E. Relation of lipids, weight and physical activity to incidence of coronary heart disease. American Journal of Cardiology 42: 653, 1978
Dannenberg AL, Keller JB, Wilson PW, Castelli WP. Leisure time physical activity in the Framingham offspring study. American Journal of Epidemiology 129: 76–88, 1989
Dasg M. Exercise training and its effects on the heart. Reviews of Physiology, Biochemistry and Pharmacology 109: 61–144, 1987
DeBusk RF, Stenestrand U, Sheehan M, Haskell W. Training effects of long versus short bouts of exercise in healthy subjects. American Journal of Cardiology 65: 1010–1013, 1990
DeMaria AN, Neumann A, Lee G, Mason D. Alterations in ventricular mass and performance induced by exercise training in man evaluated by echocardiography. Circulation 57: 237–244, 1978
Ehsani AA, Hagberg JM, Hickson RC. Rapid changes in left ventricular dimensions and mass in response to physical conditioning and deconditioning. American Journal of Cardiology 42–52, 1978
Ehsani AA, Heath GW, Hagberg JM, Holloszy JO, Martin W. Effects of 12 months of intense exercise training on ischemic ST-segment depression in patients with coronary artery disease. Circulation 64: 1116–1124, 1981
Ekelund LG, Haskell WL, Johnson JL, Tryolar D. Physical fitness as a predictor of cardiovascular mortality in asymptomatic north American men. New England Journal of Medicine 319: 1379–1389, 1988
Epstein L, Miller GJ, Stitt FW, Morris J. Vigorous exercise in leisure time, coronary risk factors, and resting electrocardiogram in middle-aged male civil servants. British Heart Journal 38: 403, 1976
Froelicher VF. Exercise, fitness, and coronary heart disease. In Bouchard (Ed.) Exercise, fitness and health, a consensus of current knowledge, pp. 429–450, Human Kinetics Publishers, Champaign, 1990
Froelicher VF, Thompson AJ, Noguera I. Prediction of maximal oxygen Consumption. Chest 68: 331–336, 1975
Kannel WB, Belanger A, D’Agostino R. Physical activity and physical demand on the job and risk of CV disease and death: the Framingham study. American Heart Journal 112: 820–825, 1986
Kovat, R. Prevention of CHD (WHO Multicenter Project). Lancet 1: 17–32, 1986
Kramsch DM, Aspen AJ, Abramowitz BM, et al. Reduction of coronary atherosclerosis by moderate conditioning exercise in monkeys on an atherogenic diet. New England Journal of Medicine 305: 1483–1489, 1981
Landry F, Bouchard C, Dumesnil J. Cardiac dimension changes with endurance training. Journal of the American Medical Association 254: 77–80, 1985
Leon AS. Physiological interactions between diet and exercise in the etiology and prevention of ischaemic heart disease. Annals of Clinical Research 20: 114–120, 1988
Leon AS, Connett J, Jocobs DR, Rauramaa R. Leisure-time physical activity levels and risk of coronary heart disease and death. Journal of the American Medical Association 258: 2388–2395, 1987
Leon AS, Jacobs DR, DeBacker G, Crow R, Blackburn H. Relationship of physical characteristics of life habits to treadmill exercise capacity. American Journal of Epidemiology 23: 653–660, 1981
Lie H, Mundal R, Erikssen J. Coronary risk factors and incidence of coronary death in relation to physical fitness. Seven year follow-up study of middle-aged and elderly men. European Heart Journal 6: 147–157, 1985
Marti B, Suter E, Riesen W. Effects of long-term, self-monitored exercise on the serum lipoprotein and apolipoprotein profile in middle-aged men. Atherosclerosis 81: 19–31, 1990
McHenry PL, Ellestad MH, Fletcher GF, Pollock M. Statement on exercise. Circulation 81: 396–398, 1990
Mitrani Y, Karplus H, Brunner D. Coronary atherosclerosis in case of traumatic death. Medicine and Sports 4: 241, 1970
Morris JN. Uses of epidemiology, Churchill Livingston, London, 1975
Morris JN, Crawford MD. Coronary heart disease and physical activity. British Medical Journal 2: 1485, 1958
Oliver RM. Physique and serum lipids of young London busmen in relation to ischemic heart disease. British Journal of Internal Medicine 24: 181–190, 1967
Paffenbarger RS, Laughlin ME, Gima AS. Work activity of long-shoremen as related to death from coronary heart disease and stroke. New England Journal of Medicine 282: 1109, 1970
Paffenbarger RS, Wing AL, Hyde RT. Physical activity as an index of heart attack risk in college alumni. American Journal of Epidemiology 108: 161–167, 1978
Paffenbarger RS, Wing AL, Hyde RT. Chronic disease in former college students: physical activity as an index of heart attack risk in college alumni. American Journal of Epidemiology 108: 161–175, 1981
Parrault H, Peronnet F, Cleroux J, et al. Electro- and echocar diographic assessment of left ventricle before and after training in man. Canadian Journal of Sport Sciences 3: 180–186, 1978
Peters RK, Cady LD, Bischoff DP. Physical fitness and subsequent myocardial infarction in healthy workers. Journal of the American Medical Association 249: 3052–3056, 1983
Poupa O, Rakusan K, Ostadal B. The effect of physical activity upon the heart of vertebrates. Physical activity and aging. Medicine and Sport 4: 202–210, 1970
Powell VK, Casperson C. Protective effect of physical activity on coronary heart disease. Mortality Morbidity World Report 36: 426–429, 1987
Shaper AG, Wannamethee G. Physical activity and ischaemic heart disease in middle-aged British men. British Heart Journal 66: 384–394, 1991
Slattery ML, Jacobs DR, Nichaman MZ. Leisure time physical activity and coronary heart disease death. The US Railroad Study. Circulation 79: 304–311, 1989
Stamler J, Kjelsberg M, Hall Y. Epidemiologic studies on cardiovascular-renal diseases: analysis of mortality by age-racesex-occupation. Journal of Chronic Diseases 12: 440, 1960
Stein RA, Michielli D, Fox EL. Continuous ventricular dimensions in man during supine exercise and recovery. American Journal of Cardiology 41: 655, 1978
Taylor HL, Buskirt E, Henschel A. Maximal oxygen intake as an objective measurement of cardiorespiratory performance. Journal of Applied Physiology 8: 73–80, 1955
Thomanek RJ, Tounton CA, Liskop KS. Relationship between age, chronic exercise, and connective tissue of the heart. Journal of Gerontology 27: 150–159, 1972
Wolfe LA, Martin RP, Watson DD. Chronic exercise and left ventricular structure and function in healthy human subjects. Journal of Applied Physiology 58: 409–415, 1985
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Morris, C.K., Froelicher, V.F. Cardiovascular Benefits of Improved Exercise Capacity. Sports Medicine 16, 225–236 (1993). https://doi.org/10.2165/00007256-199316040-00002
Published:
Issue Date:
DOI: https://doi.org/10.2165/00007256-199316040-00002