Hostname: page-component-78c5997874-v9fdk Total loading time: 0 Render date: 2024-11-02T19:59:37.055Z Has data issue: false hasContentIssue false
  • English
  • Français

Physical activity and cancer risk

Published online by Cambridge University Press:  28 February 2007

Adrianne E. Hardman
Adrianne E. Hardman*
Affiliation:
Human Muscle Metabolism Research Group, Department of Physical Education, Sports Science and Recreation Management, Loughborough University, Loughborough, Leicestershire LE11 3TU, UK
*
Corresponding author: Professor Adrianne Hardman, fax +44 1509 223971, email [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Evidence is accumulating that high levels of physical activity are associated with a reduced risk of some cancers. This evidence is most consistent for colon cancer, which is reduced by 40–50 % among the most active individuals, compared with the least active. The effect is evident in men and women, and appears to be independent of important confounding factors. However, there may be important interactions with body fatness; a high BMI has been reported to be associated with an increased risk of colon cancer in sedentary men but not in physically-active men. Whilst the evidence on breast cancer is less consistent, case–control studies typically suggest a reduction of 25–30 % among the most active women, although several studies have found no effect. Potential mechanisms include systemic influences and others relevant only to site-specific cancers. One unifying hypothesis is that physical inactivity reduces insulin sensitivity, leading to a growth-promotional environment which may facilitate neoplasia. The non-specific immune system may be improved by physical activity, possibly through the summative effects of repeated exercise bouts. Regular exercise, even at a recreational level, probably reduces exposure to oestrogen and thus decreases the risk of breast cancer. Increased colonic peristalsis, and thus reduced bowel transit time, might partly explain the lower risk of colon cancer in active people. Physical activity emerges as one of the few modifiable risk factors for some cancers and, as such, justifies further study.

Keywords

Physical activityCancer risk
Type
Macronutrient Metabolism Group Symposium on ‘Energy flux and cancer’
Information
Proceedings of the Nutrition Society , Volume 60 , Issue 1 , February 2001 , pp. 107 - 113
Copyright
Copyright © The Nutrition Society 2001

References

Ainsworth, BE, Sternfeld, B, Slattery, ML, Daguisé, V & Zahm, SH (1998) Physical activity and breast cancer. Evaluation of physical activity assessment methods. Cancer 83, Suppl., 611620.Google Scholar
Ballor, DL & Keesey, RE (1991) A meta-analysis of the factors affecting exercise-induced changes in body mass, fat mass and fat-free mass in males and females. International Journal of Obesity 15, 717726.Google ScholarPubMed
Bernstein, L, Henderson, BE, Hanisch, R, Sullivan-Halley, J & Ross, RK (1994) Physical exercise and reduced risk of breast cancer in young women. Journal of the National Cancer Institute 86, 14031408.Google Scholar
Bernstein, L & Ross, RK (1998) Re: Physical activity and breast cancer risk in a cohort of young women. Journal of the National Cancer Institute 90, 19071908.CrossRefGoogle Scholar
Broocks, A, Pirke, KM, Schweiger, U, Tuschl, RJ, Laessle, RG, Strowitzki, E, Hörl, T, Haas, W & Jeschke, D (1990) Cyclic ovarian function in recreational athletes. Journal of Applied Physiology 68, 20832086.Google Scholar
Bullen, BA, Krinar, GS, Beitins, IZ, von Mehring, G, Turnbull, BA & McArthur, JW (1985) Induction of menstrual disorders by strenuous exercise in untrained women. New England Journal of Medicine 312, 13491353.CrossRefGoogle ScholarPubMed
Colditz, GA, Cannuscio, CC & Frazier, AL (1997) Physical activity and reduced risk of colon cancer: implications for prevention. Cancer Causes and Control 8, 649667.CrossRefGoogle ScholarPubMed
Cordain, L, Latin, RW & Behnke, JJ (1986) The effects of an aerobic running program on bowel transit time. Journal of Sports Medicine 26, 101104.Google Scholar
Després, J-P (1994) Dyslipidaemia and obesity. Baillière's Clinical Endocrinology and Metabolism 8, 629660.Google Scholar
Dorgan, JF, Brown, C, Barrett, M, Splansky, GL, Kreger, BE, D'Agostino, RB, Albanes, D & Schatzkin, A (1994) Physical activity and risk of breast cancer in the Framingham Heart Study. American Journal of Epidemiology 139, 662669.Google Scholar
Dosemeci, M, Hayes, RB, Etter, R, Hoover, RN, Tucker, M, Engin, K, Unsal, M & Blair, A (1993) Occupational physical activity, socioeconomic status, and risks of 15 cancer sites in Turkey. Cancer Causes and Control 4, 313321.Google Scholar
Enger, SM, Longnecker, MP, Lee, ER, Frankl, HD & Haile, RW (1997) Recent and past physical activity and prevalence of colorectal adenomas. British Journal of Cancer 75, 740745.Google Scholar
Friedenreich, CM, Thune, I, Brinton, LA & Albanes, D (1998) Epidemiological issues related to the association between physical activity and breast cancer. Cancer 83, Suppl., 600610.Google Scholar
Gammon, MD, John, EM & Britton, JA (1998) Recreational and occupational physical activities and risk of breast cancer. Journal of the National Cancer Institute 90, 100117.Google Scholar
Gerharsson, M, Floderus, B & Norell, SE (1988) Physical activity and colon cancer risk. International Journal of Epidemiology 17, 743746.Google Scholar
Giovannucci, E, Ascherio, A, Rimm, EB, Colditz, GA, Stampfer, MJ & Willett, WC (1995) Physical activity, obesity, and risk for colon cancer and adenoma in men. Annals of Internal Medicine 122, 327334.CrossRefGoogle ScholarPubMed
Giovannucci, E, Colditz, GA, Stampfer, MJ & Willett, WC (1996) Physical activity, obesity, and risk of colorectal adenoma in women (United States). Cancer Causes and Control 7, 253263.Google Scholar
Giovannucci, E, Leitzmann, M, Spiegelman, D, Rimm, EB, Colditz, GA, Stampfer, MJ & Willett, WC (1998) A prospective study of physical activity and prostate cancer in male health professionals. Cancer Research 58, 51175122.Google Scholar
Haapanen, N, Miilunpalo, S, Pasanen, M, Oja, P & Vuori, I (1997) Assocation between leisure time physical activity and 10-year body mass change among working-aged men and women. International Journal of Obesity 21, 288296.Google Scholar
Hartman, TJ, Albanes, D, Rautalahti, M, Tangrea, JA, Virtamo, J, Stolzenberg, R & Taylor, PR (1998) Physical activity and prostate cancer in the alpha-tocopherol, beta-carotene (ATBC) cancer prevention study (Finland). Cancer Causes and Control 9, 1118.Google Scholar
Hill, MJ (1999) Diet, physical activity and cancer risk. Public Health Nutrition 2, 397401.CrossRefGoogle ScholarPubMed
Lee, I-M, Paffenbarger, RS & Hsieh, C-C (1991) Physical activity and the risk of developing colorectal cancer among college alumni. Journal of the National Cancer Institute 83, 13241329.Google Scholar
Levi, F, Pasche, C, Lucchini, F, Tavani, A & La Vecchia, C (1999) Occupational and leisure-time physical activity and the risk of colorectal cancer. European Journal of Cancer Prevention 8, 487493.Google Scholar
Liu, S, Lee, I-M, Linson, P, Ajani, U, Buring, JE & Hennekens, CH (2000) A prospective study of physical activity and risk of prostate cancer in US physicians. International Journal of Epidemiology 29, 2935.Google Scholar
McKeown-Eyssen, G (1994) Epidemiology of colorectal cancer revisited: are serum triglycerides and/or plasma glucose associated with risk? Cancer Epidemiology Biomarkers and Prevention 3, 687695.Google Scholar
McMichael, AJ & Giles, GG (1988) Cancer in migrants to Australia: extending the descriptive epidemiological data. Cancer Research 48, 751756.Google Scholar
McTiernan, A, Ulrich, C, Slate, S & Potter, J (1998) Physical activity and cancer etiology: associations and mechanisms. Cancer Causes and Control 9, 487509.Google Scholar
Martínez, ME, Giovannucci, E, Spiegelman, D, Hunter, DJ, Willett, WC & Colditz, GA (1997) Leisure-time physical activity, body size, and colon cancer in women. Journal of the National Cancer Institute 89, 948955.CrossRefGoogle ScholarPubMed
Martínez, ME, Heddens, D, Earnest, DL, Bogert, CL, Roe, D, Einspahr, J, Marshall, JR & Alberts, DS (1999) Physical activity, body mass index, and prostaglandin E2 levels in rectal mucosa. Journal of the National Cancer Institute 91, 950953.CrossRefGoogle ScholarPubMed
Mezzetti, M, La Vecchia, C, Decarli, A, Boyle, P, Talamini, R & Franceschi, S (1998) Population attributable risk for breast cancer: diet, nutrition, and physical exercise. Journal of the National Cancer Institute 90, 389394.Google Scholar
Moradi, T, Adami, H-O, Bergström, R, Gridley, G, Wolk, A, Gerhardsson, M, Dosemeci, M & Nyrén, O (1999) Occupational physical activity and risk for breast cancer in a nationwide cohort study in Sweden. Cancer Causes and Control 10, 423430.CrossRefGoogle Scholar
Neugut, AI, Terry, MB, Hocking, G, Mosca, L, Garbowski, GC, Forde, KA, Treat, MR & Waye, J (1996) Leisure and occupational physical activity and risk of colorectal adenomatous polyps. International Journal of Cancer 68, 744748.Google Scholar
Nieman, DC, Nehlsen-Cannarella, SL, Markoff, PA, Balk-Lamberton, AJ, Yang, H, Chritton, DBW, Lee, JW & Arabatzis, K (1990) The effects of moderate exercise training on natural killer cells and acute respiratory tract infections. International Journal of Sports Medicine 11, 467473.Google Scholar
Nieman, DC & Pedersen, BK (1999) Exercise and immune function: recent developments. Sports Medicine 27, 7380.Google Scholar
Pate, RR, Pratt, M, Blair, SN, Haskell, WL, Macera, CA, Bouchard, C, Buchner, D, Ettinger, W, Heath, GW, King, AC, Kriska, A, Leon, AS, Marcus, BH, Morris, J, Paffenbarger, RS, Patrick, K, Pollock, ML, Rippe, JM, Sallis, J & Wilmore, JH (1995) Physical activity and public health. A recommendation from the Centers for Disease Control and Prevention and the American College of Sports Medicine. Journal of the American Medical Association 273, 402407.Google Scholar
Phillips, RL & Snowdon, DA (1985) Dietary relationships with fatal colorectal cancer among Seventh-Day Adventists. Journal of the National Cancer Institute 74, 307317.Google Scholar
Potter, JD (1999) Colorectal cancer: molecules and populations. Journal of the National Cancer Institute 91, 916932.Google Scholar
Powell, KE, Thompson, PD, Casperson, CJ & Kendrick, JS (1987) Physical activity and the incidence of coronary heart disease. Annual Review of Public Health 8, 253287.CrossRefGoogle ScholarPubMed
Rockhill, B, Willett, WC, Hunter, DJ, Manson, JE, Hankinson, SE, Colditz, GA (1999) A prospective study of recreational physical activity and breast cancer risk. Archives of Internal Medicine 159, 22902296.Google Scholar
Rockhill, B, Willett, WC, Hunter, DJ, Manson, JE, Hankinson, SE, Spiegelman, D & Colditz, GA (1998) Physical activity and breast cancer risk in a cohort of young women. Journal of the National Cancer Institute 90, 11551160.Google Scholar
Scanga, CB, Verde, TJ, Paolone, AM, Andersen, RE & Wadden, TA (1998) Effects of weight loss and exercise training on natural killer cell activity in obese women. Medicine and Science in Sports and Exercise 30, 16661671.CrossRefGoogle ScholarPubMed
Slattery, ML, Potter, J, Caan, B, Edwards, S, Coates, A, Ma, K-N, & Berry, TD (1997) Energy balance and colon cancer - beyond physical activity. Cancer Research 57, 7580.Google Scholar
Tavani, A, Braga, C, La Vecchia, C, Conti, E, Filiberti, R, Montellaa, M, Amadori, D, Russo, A & Franceschi, S (1999) Physical activity and risk of cancers of the colon and rectum: an Italian case-control study. British Journal of Cancer 70, 19121916.Google Scholar
Thune, I, Brenn, T, Lund, E & Gaard, M (1997) Physical activity and the risk of breast cancer. New England Journal of Medicine 336, 12691275.Google Scholar
Thune, I & Lund, E (1996) Physical activity and risk of colorectal cancer in men and women. British Journal of Cancer 73, 11341140.CrossRefGoogle ScholarPubMed
Verloop, J, Rookus, MA, van der Kooy, K & Van Leeuwen, FE (2000) Physical activity and breast cancer risk in women aged 20–54 years. Journal of the National Cancer Institute 92, 128135.Google Scholar
Williamson, DF, Madans, J, Anda, RF, Kleinman, JC, Kahn, HS & Byers, T (1993) Recreational physical activity and ten-year weight change in a US national cohort. International Journal of Obesity 17, 279286.Google Scholar
Woods, JA, Davis, JM, Smith, JA & Nieman, DC (1999) Exercise and innate immune function. Medicine and Science in Sports and Exercise 31, 5766.CrossRefGoogle ScholarPubMed