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The Implications of Demographic Change on the Future of Medicare: Racial and Gender Disparities in Longevity, Physical Stature, and Lifetime Medicare Expenditures

Published online by Cambridge University Press:  18 July 2014

Zhou Yang  and
Cheng Huang
Zhou Yang
Affiliation:
Rollins School of Public Health, Emory University E-mail: zyang26@emory.edu
Cheng Huang
Affiliation:
Department of Global Health, George Washington University E-mail: chenghuang@email.gwu.edu
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Abstract

Medicare is the most important publicly financed insurance programme in the US, with an annual budget at $500 billion or higher. It covers the majority of the inpatient, outpatient and prescription drugs expenditures of the seniors from age sixty-five until death. Using nationally representative data of current Medicare beneficiaries, this study estimated the dynamic relationship among gender, race, body weight, height, longevity, and lifetime Medicare expenditure. Next, we projected the trajectories of the total financial influence of demographic and biological changes in retirees on Medicare in the future. We found the increasing proportion of African Americans will lead to disproportionately lower lifetime Medicare expenditures per capita, due to racial disparities in longevity and access to outpatient care, but expect such disparities to decrease in the future. We also found the financial burden of obesity could be magnified by the increasing obesity rates among the white population.

Keywords

AgeingdisparityMedicareobesity
Type
Articles
Information
Social Policy and Society , Volume 13 , Issue 4 , October 2014 , pp. 535 - 561
Copyright
Copyright © Cambridge University Press 2014 

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References

Administration on Aging (2009) A Statistical Profile of Black Older Americans Aged 65+, Washington, DC: US Administration on Aging, http://www.aoa.gov/Aging_Statistics/minority_aging/Facts-on-Black-Elderly-plain_format.aspx.Google Scholar
Cawley, J. (2008) ‘Contingent valuation analysis of willingness to pay to reduce childhood obesity’, Economics and Human Biology, 6, 2, 281–92.Google Scholar
Centers for Medicare and Medicaid Services (2013) Accountable Care Organization (ACO), Baltimore, MD: CMS, http://www.cms.gov/Medicare/Medicare-Fee-for-Service-Payment/ACO/.Google Scholar
Centers for Medicare and Medicaid Services (2014) Intensive Behavioral Therapy (IBT) for Obesity, Baltimore, MD: CMS, https://www.cms.gov/Outreach-and-Education/Medicare-Learning-Network-MLN/MLNProducts/Downloads/ICN907800.pdf.Google Scholar
Cohen, J. T., Neumann, P. J. and Weinstein, M. C. (2008) ‘Does prevention care save money? Health economics and the presidential candidates’, New England Journal of Medicine, 358, 7, 661–3.Google Scholar
Congressional Budget Office (2012a) Offsetting Effects of Prescription Drug Use on Medicare's Spending for Medical Services, Washington, DC: CBO, http://www.cbo.gov/sites/default/files/cbofiles/attachments/43741-MedicalOffsets-11--29--12.pdf.Google Scholar
Congressional Budget Office (2012b) Lessons from Medicare's Demonstration Projects on Disease Management, Care Coordination, and Value-Based Payment, Washington, DC: CBO, http://www.cbo.gov/sites/default/files/cbofiles/attachments/01--18--12-MedicareDemoBrief.pdf.Google Scholar
Costa, D. (1993) ‘Height, weight, wartime stress, and older age mortality: evidence from the Union Army records’, Explorations in Economic History, 30, 4, 424–49.Google Scholar
Cotay, C. C., Katzmarzyk, P. T., Janssen, I., Dawson, M. Y., Aminoltejari, K. and Bartley, N. L. (2013) ‘Updating the Canadian obesity maps: an epidemic in progress’, Canadian Journal of Public Health, 104, 1, e648.Google Scholar
David, J. and Moffit, R. (2006) Medicare and Social Security: Big Entitlement Costs on the Horizon, Washington, DC: Heritage Foundation, http://www.heritage.org/research/reports/2006/05/medicare-and-social-security-big-entitlement-costs-on-the-horizon.Google Scholar
De Beer, H. (2004) ‘Observations on the history of Dutch physical stature from the late-middle ages to present’, Economics and Human Biology, 2, 1, 4555.Google Scholar
Deaton, A. (2007) ‘Height, health, and development’, Proceedings of the National Academy of Science, 104, 33, 13232–7.Google Scholar
Duan, N. (1983) ‘Smearing estimate – a nonparametric retransformation method’, Journal of American Statistical Association, 78, 383, 605–10.Google Scholar
Ferrucci, L., Guralnik, J. M., Pahor, M., Corti, M. C. and Havlik, R. J. (1997) ‘Hospital diagnoses, Medicare charges, and nursing home admissions in the year when older persons become severely disabled’, Jama – Journal of the American Medical Association, 277, 9, 728–34.CrossRefGoogle ScholarPubMed
Finkelstein, E. A., Fiebelkorn, I. C. and Wang, G. (2003) ‘National medical spending attributable to overweight and obesity: how much, and who's paying?’, Health Affairs, doi:10.1377/hlthaff.w3.219.Google Scholar
Flegal, K. M., Graubard, B. I., Williamson, D. F. and Gail, M. H. (2005) ‘Excess deaths associated with underweight, overweight, and obesity’, Jama – Journal of the American Medical Association, 293, 15, 1861–7.Google Scholar
Flegal, K. M., Carroll, M. D., Ogden, C. L. and Johnson, C. L. (2002) ‘Prevalence and trends in obesity among US adults, 1999–2000’, Jama – Journal of the American Medical Association, 288, 14, 1723–7.Google Scholar
Fogel, R. (1994) ‘Economic growth, population theory, and physiology: the bearing of long-term process on the making of economic policy’, American Economic Review, 84, 3, 369–95.Google Scholar
Friedberg, M. W., Schneider, E. C., Rosenthal, M. B., Volpp, K. G. and Werner, R. M. (2014) ‘Association between participation in a multipayer medical home intervention and changes in quality, utilization, and costs of care’, Jama – Journal of the American Medical Association, 311, 8, 815–25.Google Scholar
Gillum, R. and Sempos, C. (2005) ‘Ethnic variation in validity of classification of overweight and obesity using self-reported weight and height in American women and men: the Third National Health and Nutrition Examination Survey’, Nutrition Journal, 4, 27.Google Scholar
Goldman, D. (1995) ‘Managed care as a public cost containment mechanism’, Rand Journal of Economics, 26, 2, 277–95.Google Scholar
Health and Social Care Information Centre (2014) Statistics on Obesity, Physical Activity and Diet – England, 2014, Leeds: HSCIC, http://www.hscic.gov.uk/catalogue/PUB13648.Google Scholar
Heckman, J. and Singer, B.(1984) ‘A method for minimizing the impact of distributional assumptions in econometric-models for duration data’, Econometrica, 52, 2, 271320.CrossRefGoogle Scholar
Komlos, J. and Lauderdale, B. (2007) ‘Underperformance in affluence: the remarkable relative decline in US heights in the second half of the 20th century’, Social Science Quarterly, 88, 2, 283304.Google Scholar
Komlos, J. (2010) ‘The recent decline in the height of African-American women’, Economics and Human Biology, 8, 1, 5866.Google Scholar
Lakdawalla, D. N. and Philipson, T. (2009) ‘The growth of obesity and technological change’, Economics and Human Biology, 7, 3, 283–93.Google Scholar
McAdams, M., Van Dam, R. and Hu, F. B. (2007) ‘Comparison of self-reported and measured BMI as correlates of disease markers in US adults’, Obesity, 15, 1, 188–96.Google Scholar
Mroz, T. A. (1999) ‘Discrete factor approximations in simultaneous equation models: estimating the impact of a dummy endogenous variable on a continuous outcome’, Journal of Econometrics, 92, 2, 233–74.Google Scholar
Neumann, P. J., Rosen, A. B. and Weinstein, M. C. (2005) ‘Medicare and cost-effectiveness analysis’, New England Journal of Medicine, 353, 14, 1516–22.Google Scholar
Newman, A. B., Yanez, D., Harris, T., Duxbury, A., Enright, P. L. and Fried, L. P. (2001) ‘Weight change in old age and its association with mortality’, Journal of the American Geriatrics Society, 49, 10, 1309–18.Google Scholar
Ogden, C. L. (2009) ‘Disparities in obesity prevalence in the United States: black women at risk’, American Journal of Clinical Nutrition, 89, 4, 1001–2.Google Scholar
Streib, L. (2009) ‘World's fattest countries’, Forbes, http://www.forbes.com/2007/02/07/worlds-fattest-countries-forbeslife-cx_ls_0208worldfat.html.Google Scholar
Thorpe, K. (2005) ‘The rise in health care spending and what to do about it’, Health Affairs, 24, 6, 1436–45.Google Scholar
Thorpe, K. and Yang, Z. (2011) ‘Enrolling People with Pre-diabetes Ages 60-64 in a Proven Weight Loss Program Could Yield $7 Billion or More in Medicare Savings’, Health Affairs, 30, 9, 1673–9.CrossRefGoogle Scholar
Thorpe, K., Florence, C. and Howard, D. (2004) ‘The impact of obesity on rising medical spending’, Health Affairs, 23, 6, W44806.Google Scholar
US Census Bureau (2012) Statistical Abstract of the United States: 2012, Washington, DC: US Census Bureau, http://www.census.gov/compendia/statab/2012/tables/12s0105.pdf.Google Scholar
Villamore, E. (2001) ‘The validity of self-reported weight in US adults: a population based cross-sectional study’, BMC Public Health, 1, 11, doi:10.1186/1471-2458-1-11.Google Scholar
Wydon, R. and Ryan, P. (2011) Guaranteed Choices to Strengthen Medicare and Health Security for All, http://budget.house.gov/uploadedfiles/wydenryan.pdf.Google Scholar
Yang, Z. and Hall, A. G. (2008) ‘Financial burden of overweight and obesity among elderly americans: the dynamics of weight, longevity, and health care cost’, Health Services Research, 43, 3, 849–67.Google Scholar
Yang, Z., Gilleskie, D. B. and Norton, E. C. (2009) ‘Health insurance, medical care, and health outcomes: a model of elderly health dynamics’, Journal of Human Resources, 44, 1, 47114.Google Scholar