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Journal ArticleDOI

Public transit, obesity, and medical costs: assessing the magnitudes.

Ryan D. Edwards1
Queens College1
01 Jan 2008-Preventive Medicine (Elsevier)-Vol. 46, Iss: 1, pp 14-21
TL;DR: While no silver bullet, walking associated with public transit can have a substantial impact on obesity, costs, and well-being.
About: This article is published in Preventive Medicine.The article was published on 2008-01-01 and is currently open access. It has received 127 citations till now. The article focuses on the topics: Population & Present value of costs.

Summary (2 min read)

Jump to: [Introduction][Methods][Forecasting obesity prevalence][Results][Reductions in obesity][Obesity prevalence scenarios][Discussion] and [Conclusion]

Introduction

  • A topic of much recent interest is the degree to which public transportation may increase exercise through walking.
  • Because residents typically select their communities, much remains unclear about the causal influence of environment on activity (Handy and Mokhtarian, 2005; Ogilvie et al., 2006).
  • The amount of additional physical activity associated with public transportation appears potentially significant.

Methods

  • Estimating additional walking associated with public transit Part of the 2001 NHTS included a daily travel diary in which household respondents were asked to self-report all trips, their purposes, starting and ending times, and the means of transportation during an assigned travel day.
  • I can only compare my estimates to those of Wener and Evans (2007), who collect objective measures of extra walking using pedometers.
  • I interpret β as the additional walking associated with transit use.
  • Of the 105,942 individuals in the adult subsample, 39,782 filled out the entire survey and have a sample weight, and 28,771 records contain all covariates.

Forecasting obesity prevalence

  • These statistics are reported by Flegal et al. (2002) and Ogden et al. (2006), who examine data from the 1960–1962 National Health Examination Survey (NHES) and subsequent NHANES waves.
  • “College degree” includes the bachelor but not the associate.
  • It is convenient to combine the estimates of Sturm, who examines additional costs under age 65, with those of Lakdawalla et al., who explore costs over 70.
  • In each year of the projection, I apply the forecast obesity prevalence rate to the additional per capita spending associated with obesity.
  • In addition to increased medical costs, obesity also threatens the quality of health and well-being, most notably later in life, and I measure these costs as well.

Results

  • Additional walking through transit Table 1 describes the characteristics of the weighted NHTS sample of adults, where the observations are person-days.
  • An almost equally large share, 1.9%, reported walking as their sole means of transit on their travel day, but these were primarily recreational walkers rather than commuters.
  • Column 1 reports ordinary least squares estimates, while columns 2–6 re marginal effects of each Tobit are the partial derivatives of the expected value o significance, with ⁎⁎⁎ at the 1% level, ⁎⁎ at 5%, and ⁎ at the 10% level.
  • No el of daily walking time as shown in Eq. (1) in the text, with standard errors in port Tobit estimates under various alternative specifications, where the reported f the observed walking time variable.

Reductions in obesity

  • The distribution of excess energy stored reported by Hill et al. (2003) reveals that these levels of additional expenditure could eliminate weight gain in approximately 43%, 50%, or 60% of the population.
  • The assumed QALY weight of a life-year spent disabled is 0.8.

Obesity prevalence scenarios

  • An OLS regression line through the historical obesity prevalence data in Fig. 1 has a slope equal to roughly 0.5% per year, significant at the 1% level.
  • These three scenarios are depicted in the right-hand side of Fig. 1 beneath the baseline projection.
  • Present value per person depending on the intensity, and about 80% of the savings is public money.

Discussion

  • The objective of this paper was to explore the potential benefits of shifting an average U.S. citizen from driving to using public transit.
  • Results hinge on an unknown that is difficult to estimate with great confidence: the additional physical activity associated with public transit.
  • It seems unlikely that anyone rationally chooses to be obese (Cutler et al., 2003), so anti-obesity policies in general are unlikely to trigger rational behavior that directly counteracts the intent, as might be an issue with anti-smoking policies if addiction is rational.
  • It could be that public transit indeed causes more physical activity, but individuals offset the potential health effects by eating more.
  • I have chosen a simple linear extrapolation of the historical trend, which has been a 0.5% linear rate of increase since the inception of the NHES/NHANES survey in 1960.

Conclusion

  • Use of public transit is associated with more walking, by about 8.3 extra minutes per day.
  • This is not enough walking to halt the spread of obesity, but it could substantially reduce it.
  • The present value of medical expenditure savings per person could be $5500, while the value of reduced disability could be even greater.

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Citations
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Journal ArticleDOI
Public transit generates new physical activity: evidence from individual GPS and accelerometer data before and after light rail construction in a neighborhood of Salt Lake City, Utah, USA

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Harvey J. Miller1, Calvin P. Tribby1, Barbara B. Brown2, Ken R. Smith3, Carol M. Werner2, Jean Wolf4, Laura Wilson4, Marcelo Oliveira4 
Ohio State University1, University of Utah2, Huntsman Cancer Institute3, Westat4
01 Nov 2015-Health & Place
TL;DR: Results suggest that transit use directly generates new PA that is not shifted from other PA, which supports the public health benefits from new high quality public transit such as LRT.

66 citations

Cites background from "Public transit, obesity, and medica..."

  • ...In comparison, analysis of 2001 National Household Travel Survey data by Besser and Dannenberg (2005) and Edwards (2008) find (respectively) that public transit users report a median of 19 min per day walking to and from public transit, with an average of 8 min more PA time than non-transit users....

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  • ...A challenge is to relate savings in health care costs relative to the cost of public transit provision in cost-benefit analyses (see, for example, Edwards, 2008)....

    [...]

Journal ArticleDOI
Factors Associated with Federal Transportation Funding for Local Pedestrian and Bicycle Programming and Facilities

[...]

Angie L. Cradock1, Philip J. Troped2, Billy Fields, Steven J. Melly1, Shannon V Simms, Franz Gimmler, Marianne Fowler 
Harvard University1, Purdue University2
02 Feb 2009-Journal of Public Health Policy
TL;DR: Improved data tracking, more explicit linkages between transportation projects and public health, and improved planning assistance to underserved communities are all seen as essential steps for improving public health outcomes.
Abstract: Providing safe, convenient places for walking and bicycling can reduce barriers to participating in regular physical activity. We examined bicycle- and pedestrian-related investments authorized by federal transportation legislation in 3,140 counties in the United States by region, population size and urbanization, social and economic characteristics, and indicators of travel-related walking and bicycling. From 1992 to 2004, states and counties implemented 10,012 bicycle- and pedestrian-related projects representing $3.17 billion in federal expenditures. We found disparities in implementation and system-building outcomes according to population size and location and social and economic indicators. Counties characterized by persistent poverty (odds ratio=0.69, 95% confidence interval 0.53–0.91) or low educational status (odds ratio=0.66, 95% confidence interval 0.52–0.84) were less likely to implement projects. Three key policy recommendations for improving public health outcomes are drawn from this research: Improved data tracking, more explicit linkages between transportation projects and public health, and improved planning assistance to underserved communities are all seen as essential steps.

63 citations

Cites background from "Public transit, obesity, and medica..."

  • ...Together these medical costs account for 9.4% of US health care expenditures (43), a level of spending that recent analysis suggests potentially could be reduced if the US population were to become more physically active in their daily commutes ( 49 )....

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  • ...These funding equity considerations are significant, given the important public costs and public health disparities associated with poor air quality ( 41 ); pedestrian and bicyclist injuries (42); and physical inactivity (43) and its related health conditions such as obesity (43), diabetes (44), and cardiovascular disease (45)....

    [...]

Evaluating Public Transportation Health Benefits

[...]

Todd Litman
27 Feb 2015
TL;DR: Litman et al. as discussed by the authors investigated ways that public transportation affects human health, and ways to incorporate these impacts into transport policy and planning decisions, and found that people who live or work in communities with high quality public transport tend to drive significantly less and rely more on alternative modes (walking, cycling and public transit) than they would in more automobile-oriented areas.
Abstract: Evaluating Public Transportation Health Benefits (2012). Written by Todd Litman, American Public Transportation Association. This report investigates ways that public transportation affects human health, and ways to incorporate these impacts into transport policy and planning decisions. This research indicates that public transit improvements and more transit oriented development can provide large but often overlooked health benefits. People who live or work in communities with high quality public transport tend to drive significantly less and rely more on alternative modes (walking, cycling and public transit) than they would in more automobile-oriented areas.

58 citations

Additional excerpts

  • ...Ryan D. Edwards (2008), “Public Transit, Obesity, And Medical Costs: Assessing The Magnitudes,” Preventive Medicine (www.sciencedirect.com/science/journal/00917435), Vol. 46, Issue 1, January, pp. 14-21....

    [...]

Journal ArticleDOI
Carsharing as active transport: What are the potential health benefits?

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Jennifer Kent
01 Mar 2014-Journal of transport and health
TL;DR: In this article, the authors explored the potential health benefits of carsharing by using a health lens to problematise existing transport systems that are dominated by private car use, and then explored the conceptual potential for carharing to address some of these problems.
Abstract: Over the past two decades, carsharing has become a mainstream transportation mode for over a million users worldwide. It is thus far demonstrating some success in efforts to reduce reliance on the private car. While the economic and environmental impacts of carsharing are well explored, research to date has not addressed the potential health benefits to be gained from this emerging mode of transport. This article seeks to redress this deficiency through a novel exploration of the potential health benefits of carsharing. The article uses a health lens to problematise existing transport systems that are dominated by private car use. The conceptual potential for carsharing to address some of these problems is then explored. This potential is subsequently tested using a systematic review of existing literature. Peer-reviewed literature from 2005 to March 2013 was searched to identify evaluations of health outcomes associated with carsharing. A three step exclusion process was used to identify articles suitable for reporting. Data was then extracted for analysis using a standard code sheet developed for this study. Seven articles remained for reporting after the review process. All were published in transport related journals. There was very little inter-study similarity in design and substantial variation in the way results have been analysed and reported. These factors prevent estimation of pooled effects and limit conclusions from this data. Not withstanding the limits inherent to the data, this review finds that all studies demonstrated that carsharing reduced vehicle ownership and/or changed travel behaviour. These changes have potential health benefits. More rigorous scientific research is required to determine the health benefits of carsharing membership. Evidence to date warrants a conceptualisation of active transport as extending beyond walking, cycling and the use of public transport in future explorations of related health benefits.

54 citations

Journal ArticleDOI
Public transit, active travel, and the journey to school: a cross-nested logit analysis

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Alireza Ermagun1, David Levinson1
University of Minnesota1
02 Jan 2017-Transportmetrica
TL;DR: In this article, a two-level cross-nested logit model was applied to quantifying the active component of public transit using the school trip information of 3441 middle and high school students in Tehran.
Abstract: Like walking and biking, public transit presents an opportunity to accomplish a portion of the recommended daily physical activity. Much of the previous research has been limited to descriptive analyses quantifying the active component of public transit using advanced econometrics models. This paper overcomes this challenge by applying a two-level cross-nested logit model. We use the school trip information of 3441 middle and high school students in Tehran. We show a 1% increase in home-to-school distance reduces physical activity by 0.91%. Considering public transit a solely non-active mode, this reduction equals 2.21%. Therefore, ignoring the ‘quasi-active’ role of public transit overestimates the physical activity reduction of students by 142%. We also indicate a 1% decrease in access to transit stations diminishes physical activity by 0.04%. This diminution is 0.02% when we apply the nested logit model. This is the direct consequence of ignoring the active component of public transit trips.

54 citations

Cites methods from "Public transit, obesity, and medica..."

  • ...Edwards (2008) assessed the net increase in walking associated with taking public transit by applying a Tobit model on a 28,771-person sample of 2001 National Household Transport Survey....

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References
More filters
Journal ArticleDOI
Prevalence of Overweight and Obesity in the United States, 1999-2004

[...]

Cynthia L. Ogden1, Margaret D. Carroll1, Lester R. Curtin1, Margaret McDowell1, Carolyn J. Tabak1, Katherine M. Flegal1 
Centers for Disease Control and Prevention1
05 Apr 2006-JAMA
TL;DR: These estimates suggest that the increases in body weight are continuing in men and in children and adolescents while they may be leveling off in women; among women, no overall increases in the prevalence of obesity were observed.
Abstract: ContextThe prevalence of overweight in children and adolescents and obesity in adults in the United States has increased over several decades.ObjectiveTo provide current estimates of the prevalence and trends of overweight in children and adolescents and obesity in adults.Design, Setting, and ParticipantsAnalysis of height and weight measurements from 3958 children and adolescents aged 2 to 19 years and 4431 adults aged 20 years or older obtained in 2003-2004 as part of the National Health and Nutrition Examination Survey (NHANES), a nationally representative sample of the US population. Data from the NHANES obtained in 1999-2000 and in 2001-2002 were compared with data from 2003-2004.Main Outcome MeasuresEstimates of the prevalence of overweight in children and adolescents and obesity in adults. Overweight among children and adolescents was defined as at or above the 95th percentile of the sex-specific body mass index (BMI) for age growth charts. Obesity among adults was defined as a BMI of 30 or higher; extreme obesity was defined as a BMI of 40 or higher.ResultsIn 2003-2004, 17.1% of US children and adolescents were overweight and 32.2% of adults were obese. Tests for trend were significant for male and female children and adolescents, indicating an increase in the prevalence of overweight in female children and adolescents from 13.8% in 1999-2000 to 16.0% in 2003-2004 and an increase in the prevalence of overweight in male children and adolescents from 14.0% to 18.2%. Among men, the prevalence of obesity increased significantly between 1999-2000 (27.5%) and 2003-2004 (31.1%). Among women, no significant increase in obesity was observed between 1999-2000 (33.4%) and 2003-2004 (33.2%). The prevalence of extreme obesity (body mass index ≥40) in 2003-2004 was 2.8% in men and 6.9% in women. In 2003-2004, significant differences in obesity prevalence remained by race/ethnicity and by age. Approximately 30% of non-Hispanic white adults were obese as were 45.0% of non-Hispanic black adults and 36.8% of Mexican Americans. Among adults aged 20 to 39 years, 28.5% were obese while 36.8% of adults aged 40 to 59 years and 31.0% of those aged 60 years or older were obese in 2003-2004.ConclusionsThe prevalence of overweight among children and adolescents and obesity among men increased significantly during the 6-year period from 1999 to 2004; among women, no overall increases in the prevalence of obesity were observed. These estimates were based on a 6-year period and suggest that the increases in body weight are continuing in men and in children and adolescents while they may be leveling off in women.

9,278 citations

"Public transit, obesity, and medica..." refers background in this paper

  • ...These statistics are reported by Flegal et al. (2002) and Ogden et al. (2006), who examine data from the 1960–1962 National Health Examination Survey (NHES) and subsequent NHANES waves....

    [...]

Journal ArticleDOI
Prevalence and Trends in Obesity Among US Adults, 1999-2000

[...]

Katherine M. Flegal1, Margaret D. Carroll, Cynthia L. Ogden, Clifford L. Johnson
National Center for Health Statistics1
09 Oct 2002-JAMA
TL;DR: The increases in the prevalences of obesity and overweight previously observed continued in 1999-2000, and increases occurred for both men and women in all age groups and for non-Hispanic whites, non- Hispanic blacks, and Mexican Americans.
Abstract: ContextThe prevalence of obesity and overweight increased in the United States between 1978 and 1991. More recent reports have suggested continued increases but are based on self-reported data.ObjectiveTo examine trends and prevalences of overweight (body mass index [BMI] ≥25) and obesity (BMI ≥30), using measured height and weight data.Design, Setting, and ParticipantsSurvey of 4115 adult men and women conducted in 1999 and 2000 as part of the National Health and Nutrition Examination Survey (NHANES), a nationally representative sample of the US population.Main Outcome MeasureAge-adjusted prevalence of overweight, obesity, and extreme obesity compared with prior surveys, and sex-, age-, and race/ethnicity–specific estimates.ResultsThe age-adjusted prevalence of obesity was 30.5% in 1999-2000 compared with 22.9% in NHANES III (1988-1994; P<.001). The prevalence of overweight also increased during this period from 55.9% to 64.5% (P<.001). Extreme obesity (BMI ≥40) also increased significantly in the population, from 2.9% to 4.7% (P = .002). Although not all changes were statistically significant, increases occurred for both men and women in all age groups and for non-Hispanic whites, non-Hispanic blacks, and Mexican Americans. Racial/ethnic groups did not differ significantly in the prevalence of obesity or overweight for men. Among women, obesity and overweight prevalences were highest among non-Hispanic black women. More than half of non-Hispanic black women aged 40 years or older were obese and more than 80% were overweight.ConclusionsThe increases in the prevalences of obesity and overweight previously observed continued in 1999-2000. The potential health benefits from reduction in overweight and obesity are of considerable public health importance.

6,523 citations

"Public transit, obesity, and medica..." refers background in this paper

  • ...Obesity rates are calculated by Flegal et al. (2002) and Ogden et al. (2006), appear as circles in the figure, and are plotted at the midpoint of the NHANES examination period....

    [...]

  • ...These statistics are reported by Flegal et al. (2002) and Ogden et al. (2006), who examine data from the 1960–1962 National Health Examination Survey (NHES) and subsequent NHANES waves....

    [...]

  • ...These statistics are reported by Flegal et al. (2002) and Ogden et al. (2006), who examine data from the 1960–1962 National Health Examination Survey (NHES) and subsequent NHANES waves....

    [...]

Journal ArticleDOI
The Disease Burden Associated with Overweight and Obesity

[...]

Aviva Must1, Jennifer L. Spadano1, Eugenie Coakley, Alison E. Field, Graham A. Colditz, William H. Dietz 
Tufts University1
27 Oct 1999-JAMA
TL;DR: A graded increase in the prevalence ratio (PR) was observed with increasing severity of overweight and obesity for all of the health outcomes except for coronary heart disease in men and high blood cholesterol level in both men and women.
Abstract: ContextOverweight and obesity are increasing dramatically in the United States and most likely contribute substantially to the burden of chronic health conditions.ObjectiveTo describe the relationship between weight status and prevalence of health conditions by severity of overweight and obesity in the US population.Design and SettingNationally representative cross-sectional survey using data from the Third National Health and Nutrition Examination Survey (NHANES III), which was conducted in 2 phases from 1988 to 1994.ParticipantsA total of 16,884 adults, 25 years and older, classified as overweight and obese (body mass index [BMI] ≥25 kg/m2) based on National Institutes of Health recommended guidelines.Main Outcome MeasuresPrevalence of type 2 diabetes mellitus, gallbladder disease, coronary heart disease, high blood cholesterol level, high blood pressure, or osteoarthritis.ResultsSixty-three percent of men and 55% of women had a body mass index of 25 kg/m2 or greater. A graded increase in the prevalence ratio (PR) was observed with increasing severity of overweight and obesity for all of the health outcomes except for coronary heart disease in men and high blood cholesterol level in both men and women. With normal-weight individuals as the reference, for individuals with BMIs of at least 40 kg/m2 and who were younger than 55 years, PRs were highest for type 2 diabetes for men (PR, 18.1; 95% confidence interval [CI], 6.7-46.8) and women (PR, 12.9; 95% CI, 5.7-28.1) and gallbladder disease for men (PR, 21.1; 95% CI, 4.1-84.2) and women (PR, 5.2; 95% CI, 2.9-8.9). Prevalence ratios generally were greater in younger than in older adults. The prevalence of having 2 or more health conditions increased with weight status category across all racial and ethnic subgroups.ConclusionsBased on these results, more than half of all US adults are considered overweight or obese. The prevalence of obesity-related comorbidities emphasizes the need for concerted efforts to prevent and treat obesity rather than just its associated comorbidities.

4,987 citations

"Public transit, obesity, and medica..." refers background in this paper

  • ...Part of the 2001 NHTS included a daily travel diary in which household respondents were asked to self-report all trips, their purposes, starting and ending times, and the means of transportation during an assigned travel day....

    [...]

  • ...Chronic illnesses such as diabetes and musculoskeletal disorder associated with obesity (Must et al., 1999) cost additional dollars of medical expenditure....

    [...]

OtherDOI
Prevalence of Overweight and Obesity in the United States

[...]

Carlos J. Crespo, Smit Ellen
01 Jan 2003

4,621 citations

Journal ArticleDOI
Prevalence and trends in overweight among us children and adolescents, 1999-2000

[...]

Cynthia L. Ogden1, Katherine M. Flegal, Margaret D. Carroll, Clifford L. Johnson
Centers for Disease Control and Prevention1
09 Oct 2002-JAMA
TL;DR: The prevalence of overweight among children in the United States is continuing to increase, especially among Mexican-American and non-Hispanic black adolescents.
Abstract: ContextThe prevalence of overweight among children in the United States increased between 1976-1980 and 1988-1994, but estimates for the current decade are unknown.ObjectiveTo determine the prevalence of overweight in US children using the most recent national data with measured weights and heights and to examine trends in overweight prevalence.Design, Setting, and ParticipantsSurvey of 4722 children from birth through 19 years of age with weight and height measurements obtained in 1999-2000 as part of the National Health and Nutrition Examination Survey (NHANES), a cross-sectional, stratified, multistage probability sample of the US population.Main Outcome MeasurePrevalence of overweight among US children by sex, age group, and race/ethnicity. Overweight among those aged 2 through 19 years was defined as at or above the 95th percentile of the sex-specific body mass index (BMI) for age growth charts.ResultsThe prevalence of overweight was 15.5% among 12- through 19-year-olds, 15.3% among 6- through 11-year-olds, and 10.4% among 2- through 5-year-olds, compared with 10.5%, 11.3%, and 7.2%, respectively, in 1988-1994 (NHANES III). The prevalence of overweight among non-Hispanic black and Mexican-American adolescents increased more than 10 percentage points between 1988-1994 and 1999-2000.ConclusionThe prevalence of overweight among children in the United States is continuing to increase, especially among Mexican-American and non-Hispanic black adolescents.

4,246 citations

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Frequently Asked Questions (1)
Q1. What contributions have the authors mentioned in the paper "Public transit, obesity, and medical costs: assessing the magnitudes" ?

This paper assesses the potential benefits of increased walking and reduced obesity associated with taking public transit in terms of dollars of medical costs saved and disability avoided. Further research is warranted on the net impact of transit usage on all behaviors, including caloric intake and other types of exercise, and on whether policies can promote transit usage at acceptable cost.