Physical activity and obesity prevention: a review of the current evidence | Proceedings of the Nutrition Society | Cambridge Core (original) (raw)

Abstract

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Ecological data on temporal trends suggest that the rising prevalence of obesity is, at least in part, attributable to declining population energy expenditure. However, population-level data on trends in physical activity are scarce. In longitudinal cohort studies individuals who report higher levels of leisure-time physical activity tend to be less likely to gain weight, but studies vary in their conclusions because of issues of confounding, reverse causality and measurement error. The majority of studies suggest that low levels of activity are only weakly associated with future weight gain. Questions about dose–response can only be properly addressed by studies including objective measures of activity with known measurement error. The observational studies leave uncertainties about the direction of causality, as individuals who are overweight are less likely to stay active. Adjustment for confounding can diminish the impact of known confounders, but only randomisation can deal with issues of unmeasured confounding. Although there are a large number of clinical trials on the treatment of individuals with obesity or the prevention of weight regain among weight losers, the updated review of trials to prevent weight gain de novo only reveals six trials published since 2000 in adults and eleven in children. Not only are these trials relatively few in number but, for various methodological reasons, they are uncertain in their conclusions about whether increasing activity will be effective in preventing obesity. Whilst efforts should continue to enhance the evidence base it is wise, in the meantime, to stick to the consensus public health advice of advocating 45–60 min moderate intensity activity daily to prevent obesity.

References

Ball, K, Brown, W & Crawford, D (2002) Who does not gain weight? Prevalence and predictors of weight maintenance in young women. International Journal of Obesity and Related Metabolic Disorders 26, 1570–1578.CrossRef Google Scholar PubMed

Baranowski, T, Baranowski, JC, Cullen, KW, Thompson, DI, Nicklas, T, Zakeri, IE & Rochon, J (2003) The Fun, Food, and Fitness Project (FFFP): the Baylor GEMS pilot study. Ethnicity and Disease 13, S30–S39.Google Scholar

Bell, AC, Ge, K & Popkin, BM (2001) Weight gain and its predictors in Chinese adults. International Journal of Obesity and Related Metabolic Disorders 25, 1079–1086.CrossRef Google Scholar PubMed

Berkey, CS, Rockett, HR, Field, AE, Gillman, MW, Frazier, AL, Camargo, CA Jr & Colditz, GA (2000) Activity, dietary intake, and weight changes in a longitudinal study of preadolescent and adolescent boys and girls. Pediatrics 105 E56.Google Scholar

Berkey, CS, Rockett, HR, Gillman, MW & Colditz, GA (2003) One-year changes in activity and in inactivity among 10- to 15-year-old boys and girls: relationship to change in body mass index. Pediatrics 111, 836–843.Google Scholar

Bogaert, N, Steinbeck, KS, Baur, LA, Brock, K & Bermingham, MA (2003) Food, activity and family – environmental vs biochemical predictors of weight gain in children. European Journal of Clinical Nutrition 57, 1242–1249.Google Scholar

Burke, V, Giangiulio, N, Gillam, HF, Beilin, LJ & Houghton, S (2003) Physical activity and nutrition programs for couples: a randomized controlled trial. Journal of Clinical Epidemiology 56, 421–432.CrossRef Google Scholar PubMed

Caballero, B, Clay, T, Davis, SM, Ethelbah, B, Rock, BH, Lohman, T, Norman, J, Story, M, Stone, EJ, Stephenson, L & Stevens, J (2003) Pathways: a school-based, randomized controlled trial for the prevention of obesity in American Indian schoolchildren. American Journal of Clinical Nutrition 78, 1030–1038.CrossRef Google Scholar PubMed

Campbell, K, Waters, E, O'Meara, S & Summerbell, C (2001) Interventions for preventing obesity in childhood. A systematic review. Obesity Reviews 2, 149–157.CrossRef Google Scholar PubMed

Davison, KK & Birch, LL (2001) Child and parent characteristics as predictors of change in girls' body mass index. International Journal of Obesity and Related Metabolic Disorders 25, 1834–1842.CrossRef Google Scholar . Obesity Research 11, 143–151.CrossRef Google Scholar . Preventive Medicine 33, 571–577.CrossRef Google Scholar PubMed

Neumark-Sztainer, D, Story, M, Hannan, PJ & Rex, J (2003) New Moves: a school-based obesity prevention program for adolescent girls. Preventive Medicine 37, 41–51.CrossRef Google Scholar PubMed

O'Loughlin, J, Gray-Donald, K, Paradis, G & Meshefedjian, G (2000) One- and two-year predictors of excess weight gain among elementary schoolchildren in multiethnic, low-income, inner-city neighborhoods. American Journal of Epidemiology 152, 739–746.CrossRef Google Scholar PubMed

Pangrazi, RP, Beighle, A, Vehige, T & Vack, C (2003) Impact of Promoting Lifestyle Activity for Youth (PLAY) on children's physical activity. Journal of School Health 73, 317–321.CrossRef Google Scholar PubMed

Petersen, L, Schnohr, P & Sorensen, TI (2004) Longitudinal study of the long-term relation between physical activity and obesity in adults. International Journal of Obesity and Related Metabolic Disorders 28, 105–112.Google Scholar

Polley, BA, Wing, RR & Sims, CJ (2002) Randomized controlled trial to prevent excessive weight gain in pregnant women. International Journal of Obesity and Related Metabolic Disorders 26, 1494–1502.Google Scholar

Proctor, MH, Moore, LL, Gao, D, Cupples, LA, Bradlee, ML, Hood, MY & Ellison, RC (2003) Television viewing and change in body fat from preschool to early adolescence: The Framingham Children's Study. International Journal of Obesity and Related Metabolic Disorders 27, 827–833.CrossRef Google Scholar PubMed

Proper, KI, Hildebrandt, VH, Van der, Beek, AJ, Twisk, JW, Van & Mechelen, W (2003) Effect of individual counseling on physical activity fitness and health: a randomized controlled trial in a workplace setting. American Journal of Preventive Medicine 24, 218–226.CrossRef Google Scholar

Rainwater, DL, Mitchell, BD, Comuzzie, AG, VandeBerg, JL, Stern, MP & MacCluer, JW (2000) Association among 5-year changes in weight, physical activity, and cardiovascular disease risk factors in Mexican Americans. American Journal of Epidemiology 152, 974–982.CrossRef Google Scholar PubMed

Rennie, KL & Wareham, NJ (1998) The validation of physical activity instruments for measuring energy expenditure: problems and pitfalls. Public Health Nutrition 1, 265–271.Google Scholar

Robinson, TN, Killen, JD, Kraemer, HC, Wilson, DM, Matheson, DM, Haskell, WL et al. (2003) Dance and reducing television viewing to prevent weight gain in African-American girls: the Stanford GEMS pilot study. Ethnicity and Disease 13, S65–S77.Google Scholar PubMed

Sahota, P, Rudolf, MC, Dixey, R, Hill, AJ, Barth, JH & Cade, J (2001) Randomised controlled trial of primary school based intervention to reduce risk factors for obesity. British Medical Journal 323, 1029–1032.Google Scholar

Sallis, JF, McKenzie, TL, Conway, TL, Elder, JP, Prochaska, JJ, Brown, M, Zive, MM, Marshall, SJ & Alcaraz, JE (2003) Environmental interventions for eating and physical activity: a randomized controlled trial in middle schools. American Journal of Preventive Medicine 24, 209–217.CrossRef Google Scholar PubMed

Saris, WH, Blair, SN, van Baak, MA, Eaton, SB, Davies, PS, Di Pietro, L et al. (2003) How much physical activity is enough to prevent unhealthy weight gain? Outcome of the IASO 1st Stock Conference and consensus statement. Obesity Reviews 4, 101–114.Google Scholar

Schmitz, KH, Jacobs, DR Jr, Leon, AS, Schreiner, PJ & Sternfeld, B (2000) Physical activity and body weight: associations over ten years in the CARDIA study. Coronary Artery Risk Development in Young Adults. International Journal of Obesity and Related Metabolic Disorders 24, 1475–1487.CrossRef Google Scholar PubMed

Sherwood, NE, Jeffery, RW, French, SA, Hannan, PJ & Murray, DM (2000) Predictors of weight gain in the Pound of Prevention study. International Journal of Obesity and Related Metabolic Disorders 24, 395–403.CrossRef Google Scholar PubMed

Simkin-Silverman, LR, Wing, RR, Boraz, MA & Kuller, LH (2003) Lifestyle intervention can prevent weight gain during menopause: results from a 5-year randomized clinical trial. Annals of Behavioral Medicine 26, 212–220.Google Scholar

Sports Council and Health Education Authority (1992) Allied Dunbar National Fitness Survey: Technical Report London Health Education AuthorityGoogle Scholar

Tanner, JM (1962) Growth at Adolescence. Oxford: Blackwell.Google Scholar

Tammelin, T, Laitinen, J & Nayha, S (2004) Change in the level of physical activity from adolescence into adulthood and obesity at the age of 31 years. International Journal of Obesity and Related Metabolic Disorders 28, 775–782.CrossRef Google Scholar

Tataranni, PA, Harper, IT, Snitker, S, Del, Parigi, A, Vozarova, B, Bunt, J, Bogardus, Ravussin, E (2003) Body weight gain in free-living Pima Indians: effect of energy intake vs expenditure. International Journal of Obesity and Related Metabolic Disorders 27, 1578–1583.Google Scholar

Treuth, MS, Butte, NF & Sorkin, JD (2003) Predictors of body fat gain in nonobese girls with a familial predisposition to obesity. American Journal of Clinical Nutrition 78, 1212–1218.Google Scholar

Wagner, A, Simon, C, Ducimetiere, P, Montaye, M, Bongard, V, Yarnell, J et al. (2001) Leisure-time physical activity and regular walking or cycling to work are associated with adiposity and 5 y weight gain in middle-aged men: the PRIME Study. International Journal of Obesity and Related Metabolic Disorders 25, 940–948.CrossRef Google Scholar PubMed

Wareham, NJ, Jakes, RW, Rennie, KL, Mitchell, J, Hennings, S & Day, NE (2002) Validity and repeatability of the EPIC-Norfolk Physical Activity Questionnaire. International Journal of Epidemiology 31, 168–174.Google Scholar

Wareham, NJ & Rennie, KL (1998) The assessment of physical activity in individuals and populations: Why try to be more precise about how physical activity is assessed. International Journal of Obesity and Related Metabolic Disorders 22, S30–S38.Google Scholar

Warren, JM, Henry, CJ, Lightowler, HJ, Bradshaw, SM & Perwaiz, S (2003) Evaluation of a pilot school programme aimed at the prevention of obesity in children. Health Promotion International 18, 287–296.Google Scholar

Wells, JC & Ritz, P (2001) Physical activity at 9–12 months and fatness at 2 years of age. American Journal of Human Biology 13, 384–389.Google Scholar

Wenche, DB, Holmen, J, Kruger, O & Midthjell, K (2004) Leisure time physical activity and change in body mass index: an 11-year follow-up study of 9357 normal weight health women 20–49 years old. Journal of Women's Health 13, 55–62.Google Scholar