The effects of changing exercise levels on weight and age-related weight gain

The effects of changing exercise levels on weight and age-related weight gain

To determine prospectively whether physical activity can prevent age-related weight gain and whether changing levels of activity affect body weight. The study consisted of 8,080 male and 4,871 female runners who completed two questionnaires an average (+/-standard deviation (s.d.)) of 3.20+/-2.30 an...

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Bibliographic Details
Published in:International Journal of Obesity Vol. 30; no. 3; pp. 543 - 551
Main Authors: WILLIAMS, P. T, WOOD, P. D
Format: Journal Article
Language:English
Published: Basingstoke Nature Publishing 01-03-2006
Nature Publishing Group
Subjects:
Adolescent
Adult
Age groups
Aged
Aging
Aging - physiology
Anthropometry
Biological and medical sciences
Body Constitution - physiology
Body Mass Index
Body weight
Body Weight - physiology
Energy
Exercise
Female
Females
Humans
Life sciences
Male
Medical sciences
Metabolic diseases
Middle Aged
Obesity
Physical fitness
Prospective Studies
Questionnaires
Regression analysis
Running
Running - physiology
Self report
Standard deviation
Variables
Weight control
Weight Gain - physiology
Women
United States > US
Human
Physical exercise
regional adiposity
Adipose tissue
Ageing
exercise
Weight gain
running
Body mass index
Distribution
aging
Elderly
Age
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Summary:To determine prospectively whether physical activity can prevent age-related weight gain and whether changing levels of activity affect body weight. The study consisted of 8,080 male and 4,871 female runners who completed two questionnaires an average (+/-standard deviation (s.d.)) of 3.20+/-2.30 and 2.59+/-2.17 years apart, respectively, as part of the National Runners' Health Study. Changes in running distance were inversely related to changes in men's and women's body mass indices (BMIs) (slope+/-standard error (s.e.): -0.015+/-0.001 and -0.009+/-0.001 kg/m(2) per Deltakm/week, respectively), waist circumferences (-0.030+/-0.002 and -0.022+/-0.005 cm per Deltakm/week, respectively) and percent changes in body weight (-0.062+/-0.003 and -0.041+/-0.003% per Deltakm/week, respectively, all P<0.0001). The regression slopes were significantly steeper (more negative) in men than women for DeltaBMI and Delta%body weight (P<0.0001). A longer history of running diminished the impact of changing running distance on men's weights. When adjusted for Deltakm/week, years of aging in men and years of aging in women were associated with increases of 0.066+/-0.005 and 0.056+/-0.006 kg/m(2) in BMI, respectively, increases of 0.294+/-0.019 and 0.279+/-0.028% in Delta%body weight, respectively, and increases of 0.203+/-0.016 and 0.271+/-0.033 cm in waist circumference, respectively (all P<0.0001). These regression slopes suggest that vigorous exercise may need to increase 4.4 km/week annually in men and 6.2 km/week annually in women to compensate for the expected gain in weight associated with aging (2.7 and 3.9 km/week annually when correct for the attenuation due to measurement error). Age-related weight gain occurs even among the most active individuals when exercise is constant. Theoretically, vigorous exercise must increase significantly with age to compensate for the expected gain in weight associated with aging.
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ISSN:0307-0565
1476-5497
DOI:10.1038/sj.ijo.0803172