Trends over 5 decades in U.S. occupation-related physical activity and their associations with obesity

Timothy S Church, Diana M Thomas, Catrine Tudor-Locke, Peter T Katzmarzyk, Conrad P Earnest, Ruben Q Rodarte, Corby K Martin, Steven N Blair, Claude Bouchard, Timothy S Church, Diana M Thomas, Catrine Tudor-Locke, Peter T Katzmarzyk, Conrad P Earnest, Ruben Q Rodarte, Corby K Martin, Steven N Blair, Claude Bouchard

Abstract

Background: The true causes of the obesity epidemic are not well understood and there are few longitudinal population-based data published examining this issue. The objective of this analysis was to examine trends in occupational physical activity during the past 5 decades and explore how these trends relate to concurrent changes in body weight in the U.S.

Methodology/principal findings: Analysis of energy expenditure for occupations in U.S. private industry since 1960 using data from the U.S. Bureau of Labor Statistics. Mean body weight was derived from the U.S. National Health and Nutrition Examination Surveys (NHANES). In the early 1960's almost half the jobs in private industry in the U.S. required at least moderate intensity physical activity whereas now less than 20% demand this level of energy expenditure. Since 1960 the estimated mean daily energy expenditure due to work related physical activity has dropped by more than 100 calories in both women and men. Energy balance model predicted weights based on change in occupation-related daily energy expenditure since 1960 for each NHANES examination period closely matched the actual change in weight for 40-50 year old men and women. For example from 1960-62 to 2003-06 we estimated that the occupation-related daily energy expenditure decreased by 142 calories in men. Given a baseline weight of 76.9 kg in 1960-02, we estimated that a 142 calories reduction would result in an increase in mean weight to 89.7 kg, which closely matched the mean NHANES weight of 91.8 kg in 2003-06. The results were similar for women.

Conclusion: Over the last 50 years in the U.S. we estimate that daily occupation-related energy expenditure has decreased by more than 100 calories, and this reduction in energy expenditure accounts for a significant portion of the increase in mean U.S. body weights for women and men.

Conflict of interest statement

Competing Interests: The authors have declared that no competing interests exist.

Figures

Figure 1. Service, goods producing and agriculture…
Figure 1. Service, goods producing and agriculture jobs in US from 1960 to 2008.
The top panel depicts the prevalence of service occupations, goods producing occupations and agricultural occupations for the US from 1960 to 2008. The middle and lower panels depict the sectors within the good producing (middle panel) and service occupations (lower panel).
Figure 2. Trends in the prevalence of…
Figure 2. Trends in the prevalence of sedentary, light and moderate intensity occupations from 1960 to 2008.
Figure 3. Occupational METs and energy expenditure…
Figure 3. Occupational METs and energy expenditure since 1960.
The upper panel of Figure 3 plots the mean occupation-related METs since 1960 and the lower panel presents the mean occupational daily energy expenditure in men and women since 1960.
Figure 4. Predicted weights and NHANES weights.
Figure 4. Predicted weights and NHANES weights.
Figure 4 presents the energy balance model predicted mean U.S. body weight based on change in occupation related daily energy expenditure since 1960 compared to mean U.S. weight gain based on the NHANES examination periods for 40–50 year old men (left panel) and women (right panel).

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Source: PubMed

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