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OVERWEIGHT/OBESITY AND HUMAN CAPITAL FORMATION FROM INFANCY TO ADOLESCENCE: EVIDENCE FROM TWO LARGE US COHORTS

Published online by Cambridge University Press:  16 June 2014

JASON E. MURASKO
JASON E. MURASKO*
Affiliation:
Department of Economics, University of Houston – Clear Lake, TX, USA
*
1Email: muraskoj@uhcl.edu
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Summary

Body mass index (BMI) levels in US children and adolescents have increased over the past several decades. The negative health effects of this trend are well-documented. Recent work has evaluated the potential effects on skills formation. Studies are mixed on whether there is an association between high BMI and skills outcomes, and those that estimate causal effects find none. This paper offers estimates on the causal effect of BMI-defined overweight and obesity on skills formation using two large cohorts of contemporary US children followed from infancy to 5 years and from kindergarten (6 years) to the eighth grade (14 years). Significant negative associations were observed in the random effects models for males in early life with respect to a mental skills assessment, for females during the pre-school years for reading and maths assessments, for both males and females during the schooling years for reading assessments and for females during the schooling years for maths assessments. Fixed effects models yielded a significant negative association only with respect to the latter. The implication of these findings is that any improvement in skills outcomes that may accompany reductions in obesity prevalence may depend on whether interventions are general to overall health productivity or whether they are specific to dietary and exercise behaviours.

Type
Articles
Information
Journal of Biosocial Science , Volume 47 , Issue 2 , March 2015 , pp. 220 - 237
Copyright
Copyright © Cambridge University Press 2014 

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References

Anderson, P., Butcher, K. & Levine, P. (2003) Economic perspectives on childhood obesity. Economic Perspectives 27, 3048.Google Scholar
Andreassen, C. & Fletcher, P. (2007) Early Childhood Longitudinal Study, Birth Cohort (ECLS–B) Psychometric Report for the 2-Year Data Collection (NCES 2007–084). National Center for Education Statistics, Institute of Education Sciences, US Department of Education, Washington, DC.Google Scholar
Armstrong, J. & Reilly, J. (2002) Breastfeeding and lowering the risk of childhood obesity. Lancet 359, 20032004.Google Scholar
Atella, V., Pace, N. & Vuri, D. (2008) Are employers discriminating with respect to weight? European evidence using quantile regression. Economics & Human Biology 6, 305329.Google Scholar
Averett, S. & Stifel, D. (2007) Food for Thought: The Cognitive Effects of Childhood Malnutrition in the United States. Lafayette College, Easton, PA.Google Scholar
Barlow, S. & Expert Committee (2007) Expert committee recommendations regarding the prevention, assessment, and treatment of child and adolescent overweight and obesity, summary report. Pediatrics 120, S164192.Google Scholar
Bayley, N. (1993) Bayley Scales of Infant Development, Second Edition. The Psychological Corporation, San Antonio, TX.Google Scholar
Blunden, S. L. & Beebe, D. W. (2006) The contribution of intermittent hypoxia, sleep debt and sleep disruption to daytime performance deficits in children: consideration of respiratory and non-respiratory sleep disorders. Sleep Reviews 10, 109118.Google Scholar
Carter, M., Dubois, L. & Ramsay, T. (2010) Examining the relationship between obesity and maths performance among Canadian school children: a prospective analysis. Pediatric Obesity 5, 412419.Google Scholar
Cawley, J. (2004) The impact of obesity on wages. Journal of Human Resources 39, 451474.Google Scholar
Cawley, J. (2006) Markets and childhood obesity policy. Future of Children 16, 6988.Google Scholar
Cawley, J. & Spiess, K. (2008) Obesity and skill attainment in early childhood. Economics & Human Biology 6, 388397.Google Scholar
Cole, T., Bellizzi, M., Flegal, K. & Dietz, W. (2000) Establishing a standard definition for child overweight and obesity worldwide: international survey. British Medical Journal 320, 1240.Google Scholar
Cole, T. & Lobstein, T. (2012) Extended international (IOTF) body mass index cut-offs for thinness, overweight and obesity. Pediatric Obesity 7, 284294.Google Scholar
Craft, S. & Watson, G. S. (2004) Insulin and neurodegenerative disease: shared and specific mechanisms. Lancet Neurology 3, 169178.Google Scholar
Cunha, F. & Heckman, J. (2008) Formulating, identifying, and estimating the technology of cognitive and noncognitive skill formation. Journal of Human Resources 43, 738782.Google Scholar
Datar, A. & Sturm, R. (2006) Childhood overweight and elementary school outcomes. International Journal of Obesity 30, 14491460.Google Scholar
Datar, A., Sturm, R. & Magnabosco, J. (2004) Childhood overweight and academic performance: national study of kindergartners and first-graders. Obesity Research 12, 5868.Google Scholar
Davis, C., Tomporowski, P., McDowell, J., Austin, B., Miller, P., Yanasak, N.et al. (2011) Exercise improves executive function and achievement and alters brain activation in overweight children: a randomized, controlled trial. Health Psychology 30, 9198.Google Scholar
de Onis, M. & Lobstein, T. (2010) Defining obesity risk status in the general childhood population: which cut-offs should we use? International Journal of Pediatric Obesity 5, 458460.Google Scholar
de Onis, M., Onyango, A., Borghi, E., Siyam, A., Nishida, C. & Siekmann, J. (2007) Development of a WHO growth reference for school-aged children and adolescents. Bulletin of the World Health Organization 85, 660667.Google Scholar
de Onis, M. & World Health Organization (2006) Who Child Growth Standards: Length/Height-for-Age, Weight-for-Age, Weight-for-Length, Weight-for-Height and Body Mass Index-for-Age: Methods and Development. World Health Organization, Geneva.Google Scholar
Dietz, W. (1998) Health consequences of obesity in youth: childhood predictors of adult disease. Pediatrics 101, 518525.Google Scholar
Duncan, S. & De Avila, E. (1998) PreLAS 2000. CTB/McGraw-Hill, Monterey, CA.Google Scholar
Dunn, L. & Dunn, L. (1997) Peabody Picture Vocabulary Test, Third Edition(PPVT-III). Pearson Publishing, Upper Saddle River, NJ.Google Scholar
Ebbeling, C., Pawlak, D. & Ludwig, D. (2002) Childhood obesity: public-health crisis, common sense cure. Lancet 360, 473482.Google Scholar
Farr, S. A., Banks, W. A. & Morley, J. E. (2006) Effects of leptin on memory processing. Peptides 27, 14201425.Google Scholar
Finch, B. (2003) Socioeconomic gradients and low birth-weight: empirical and policy considerations. Health Services Research 38, 18191842.Google Scholar
Freedman, D., Wang, J., Maynard, L., Thornton, J., Mei, Z., Pierson, R.et al. (2005) Relation of BMI to fat and fat-free mass among children and adolescents. International Journal of Obesity 29, 18.Google Scholar
Freedman, D. & Sherry, B. (2009) The validity of BMI as an indicator of body fatness and risk among children. Pediatrics 124, S2334.Google Scholar
Ginsburg, H. & Baroody, A. (2003) Test of Early Mathematics Ability (3rd edition). PRO-ED, Inc., Austin, TX.Google Scholar
Gozal, D., Crabtree, V., Capdevila, O., Witcher, L. & Kheirandish-Gozal, L. (2007) C-reactive protein, obstructive sleep apnea, and cognitive dysfunction in school-aged children. American Journal of Respiratory and Critical Care Medicine 176, 188193.Google Scholar
Hausman, J. (1978) Specification tests in econometrics. Econometrica 46, 12511271.Google Scholar
Heckman, J. & Rubinstein, Y. (2001) The importance of noncognitive skills: lessons from the GED testing program. American Economic Review 91, 145149.Google Scholar
Heckman, J., Stixrud, J. & Urzua, S. (2006) The effects of cognitive and noncognitive abilities on labor market outcomes and social behaviour. Journal of Labor Economics 24, 411482.Google Scholar
Heinzer, M. (2005) Obesity in infancy: questions, more questions, and few answers. Newborn and Infant Nursing Reviews 5, 194202.Google Scholar
Joensen, J. & Nielsen, H. (2009) Is there a causal effect of high school maths on labor market outcomes? Journal of Human Resources 44, 171198.Google Scholar
Kaestner, R. & Grossman, M. (2009) Effects of weight on children's educational achievement. Economics of Education Review 28, 651661.Google Scholar
Koedel, C. & Tyhurst, E. (2012) Maths skills and labor-market outcomes: evidence from a resume-based field experiment. Economics of Education Review 31, 131140.Google Scholar
Komlos, J., Breitfelder, A. & Sunder, M. (2009) The transition to post-industrial BMI values among US children. American Journal of Human Biology 21, 151160.Google Scholar
Kramer, M., Morin, I., Yang, H., Platt, R., Usher, R., McNamara, H.et al. (2002) Why are babies getting bigger? Temporal trends in fetal growth and its determinants. Journal of Pediatrics 141, 538542.Google Scholar
Kramer, M., Seguin, L., Lydon, J. & Goulet, L. (2000) Socio-economic disparities in pregnancy outcome: why do the poor fare so poorly? Pediatric and Perinatal Epidemiology 14, 194210.Google Scholar
Kuczmarski, R., Ogden, C., Grummer-Strawn, L., Flegal, K., Guo, S., Wei, R.et al. (2000) CDC Growth Charts, United States. Advance Data from Vital and Health Statistics, No. 314. National Center for Health Statistics, Hyattsville, MD.Google Scholar
Leroy, J. (2011) ZSCORE06: Stata module to calculate anthropometric z-scores using the 2006 WHO child growth standards. Statistical Software Components. URL: http://www.ifpri.org/staffprofile/jef-leroyGoogle Scholar
Li, Y., Dai, Q., Jackson, J. & Zhang, J. (2008) Overweight is associated with decreased cognitive functioning among school-age children and adolescents. Obesity 16, 18091815.Google Scholar
Lonigan, C., Wagner, R., Torgesen, J. & Rashotte, C. A. (2002) Preschool Comprehensive Test of Phonological & Print Processing. ProEd, Austin, TX.Google Scholar
McCormick, D., Sarpong, K., Jordan, L., Ray, L. & Jain, S. (2010) Infant obesity: are we ready to make this diagnosis? Journal of Pediatrics 157, 1519.Google Scholar
Murasko, J. (2009) Socioeconomic status, height, and obesity in children. Economics & Human Biology 7, 376386.Google Scholar
National Center for Health Statistics (2010) Prevalence of overweight, infants and children less than 2 years of age: United States, 2003–2004. NCHS Health E-Stat. URL: http://www.cdc.gov/nchs/data/hestat/overweight/overweight_child_under02.htmGoogle Scholar
Palermo, T. & Dowd, J. (2012) Childhood obesity and human capital accumulation. Social Science & Medicine 75, 19891998.Google Scholar
Philipson, T. (2001) The world-wide growth in obesity: an economic research agenda. Health Economics 10, 17.Google Scholar
Reilly, J., Methven, E., McDowell, Z., Hacking, B., Alexander, D., Stewart, L. & Kelnar, C. (2003) Health consequences of obesity. Archives of Disease in Childhood 88, 748752.Google Scholar
Sargent, J. & Blanchflower, D. (1994) Obesity and stature in adolescence and earnings in young adulthood: analysis of a British birth cohort. Archives of Pediatrics & Adolescent Medicine 148, 681687.Google Scholar
Schwimmer, J., Burwinkle, T. & Varni, J. (2003) Health-related quality of life of severely obese children and adolescents. Journal of the American Medical Association 289, 18131819.Google Scholar
Snow, K., Derecho, A., Wheeless, S., Lennon, J., Rosen, J., Rogers, J.et al. (2009) Early Childhood Longitudinal Study, Birth Cohort (ECLS-B), Kindergarten 2006 and 2007 Data File User's Manual (2010-010). National Center for Education Statistics, Institute of Education Sciences, US Department of Education, Washington, DC.Google Scholar
Surkan, P., Hsieh, C., Johansson, A., Dickman, P. & Cnattingius, S. (2004) Reasons for increasing trends in large for gestational births. Obstetrics and Gynecology 104, 720726.CrossRefGoogle Scholar
Tourangeau, K., Nord, C., , T., Sorongon, A. & Najarian, M. (2009) Early Childhood Longitudinal Study, Kindergarten Class of 1998–99 (ECLS-K), Combined User's Manual for the ECLS-K Eighth-Grade and K-8 Full Sample Data Files and Electronic Codebooks (NCES 2009-004). National Center for Education Statistics, Institute of Education Sciences, US Department of Education, Washington, DC.Google Scholar
Vidmar, S., Carlin, J., Hesketh, K. & Cole, T. (2004) Standardizing anthropometric measures in children and adolescents with new functions for egen. Stata Journal 4, 5055.Google Scholar
vonKries, R., Bolte, G., Baghi, L. & Toschke, A. (2008) Parental smoking and childhood obesity – is maternal smoking in pregnancy the critical exposure? International Journal of Epidemiology 37, 210216.Google Scholar
Wooldridge, J. (2010) Econometric Analysis of Cross Section and Panel Data. MIT Press.Google Scholar