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Why do some overweight children remain overweight, whereas others do not?

Published online by Cambridge University Press:  16 August 2007

Youfa Wang ,
Keyou Ge  and
Barry M Popkin
Youfa Wang*
Affiliation:
Department of Human Nutrition and Division of Epidemiology and Biostatistics, University of Illinois at Chicago (UIC), 1919 W. Taylor Street, Chicago, IL 60612, USA
Keyou Ge
Affiliation:
Institute of Nutrition and Food Hygiene, Chinese Academy of Preventive Medicine, Beijing, People's Republic of China
Barry M Popkin
Affiliation:
Department of Nutrition and Carolina Population Center, University of North Carolina, Chapel Hill, NC, USA
*
*Corresponding author: Email [email protected]
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Abstract

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Objective:

To study the dynamics of childhood overweight and the influence of dietary intake on tracking of overweight.

Design and setting:

A follow-up study conducted in China.

Subjects:

Ninety-five overweight children, 6–13 years old, identified from 1455 children at baseline, were followed over a 2-year period.

Methods:

Data on anthropometry and 3-day dietary intake were collected at baseline and during follow-up. Overweight was defined using the International Obesity Task Force reference of body mass index (BMI)-for-age. Differences between groups were tested using analysis of variance and Cochran-Mantel-Haenszel tests.

Results:

Of the 95 overweight children, 36.8% remained overweight 2 years later (‘tracking group’). Urban boys were the three times more likely than rural boys to remain overweight (63.2% vs. 21.9%). At baseline, the tracking group had higher BMI, body weight and fat intake (% of energy), and lower carbohydrate intake (% of energy), than the non-tracking group (who shifted from overweight to not overweight); they were more likely to have a high-fat or high-meat diet, but less likely to have a diet high in carbohydrate or vegetables and fruit. During the follow-up, the tracking group increased fat intake and reduced carbohydrate intake while the non-tracking group did not; and they also grew slower in height but faster in weight. Tracking of overweight seemed to be related to tracking of high-meat (relative risk (RR) 2.4, 95% confidence interval (CI) 1.0–5.6, P < 0.05) and high-fat (RR 1.5, 95% CI 0.9–2.5, P < 0.1) diets.

Conclusion:

Considerable changes in children's overweight status during childhood and adolescence were observed in China, a transitional society. Dietary patterns, particularly dietary composition, seemed to influence the tracking patterns of overweight.

Keywords

ChildObesityOverweightDietTracking
Type
Research Article
Information
Public Health Nutrition , Volume 6 , Issue 6 , September 2003 , pp. 549 - 558
Copyright
Copyright © The Authors 2003

Footnotes

Preliminary results were presented at the Federation of American Societies for Experimental Biology (FASEB) 2001 Conference held at Orlando, FL, USA in April 2001.

References

1World Health Organization (WHO). Obesity: Preventing and Managing the Global Epidemic. Report of a WHO Consultation. WHO Technical Report Series No. 894. Geneva: WHO, 2000.Google Scholar
2Wang, Y, Monteiro, C, Popkin, BM. Trends of obesity and underweight in older children and adolescents in the United States, Brazil, China and Russia. American Journal of Clinical Nutrition 2002; 75: 971–97.CrossRefGoogle ScholarPubMed
3Popkin, BM, Doak, CM. The obesity epidemic is a worldwide phenomenon. Nutrition Reviews 1998; 56: 106–14.CrossRefGoogle ScholarPubMed
4Dietz, WH. Critical periods in childhood for the development of obesity. American Journal of Clinical Nutrition 1994; 59: 955–9.CrossRefGoogle ScholarPubMed
5Dietz, WH, Gortmaker, SL. Preventing obesity in children and adolescents. Annual Review of Public Health 2001; 22: 337–53.CrossRefGoogle ScholarPubMed
6Power, C, Lake, JK, Cole, TJ. Measurement and long-term health risks of child and adolescent fatness. International Journal of Obesity 1997; 21: 507–26.CrossRefGoogle ScholarPubMed
7Serdula, MK, Ivery, D, Coates, RJ, Freedman, DS, Williamson, DF, Byers, T. Do obese children become obese adults? Preventive Medicine 1993; 22: 167–77.CrossRefGoogle ScholarPubMed
8Whitaker, RC, Wright, JA, Pepe, MS, Seidel, KD, Dietz, WH. Predicting obesity in young adulthood from childhood and parental obesity. New England Journal of Medicine 1997; 337: 869–73.CrossRefGoogle ScholarPubMed
9Epstein, LH, Valoski, A, Wing, RR, McCurley, J. Ten-year outcomes of behavioral family-based treatment for childhood obesity. Health Psychology 1994; 13: 373–83.CrossRefGoogle ScholarPubMed
10Epstein, LH. Family-based behavioural intervention for obese children. International Journal of Obesity 1996; 20(Suppl. 1): S14–21.Google ScholarPubMed
11Lytle, LA, Stone, EJ, Nichaman, MZ, Perry, CL, Montgomery, DH, Niklas, TA, et al. Changes in nutrient intakes of elementary school children following a school-based intervention: results from the CATCH study. Preventive Medicine 1996; 25: 465–77.CrossRefGoogle ScholarPubMed
12Webber, LS, Osganian, SK, Feldman, HA, Wu, M, McKenzie, TL, Nichaman, M, et al. Cardiovascular risk factors among children after a 2 ½-year intervention – The CATCH Study. Preventive Medicine 1996; 25: 432–41.CrossRefGoogle ScholarPubMed
13Parsons, TJ, Power, C, Logan, S, Summerbell, CD. Childhood predictors of adult obesity: a systematic review. International Journal of Obesity 1999; 23(Suppl. 8): S1–107.Google ScholarPubMed
14Klesges, RC, Klesges, LM, Eck, LH, Shelton, ML. A longitudinal analysis of accelerated weight gain in preschool children. Pediatrics 1995; 95: 126–30.Google ScholarPubMed
15Maffeis, C, Talamini, G, Tato, L. Influence of diet, physical activity and parents' obesity on children's adiposity: a four-year longitudinal study. International Journal of Obesity 1998; 22: 758–64.CrossRefGoogle ScholarPubMed
16Nicklas, TA. Dietary studies of children and young adults (1973–1988): the Bogalusa Heart Study. American Journal of the Medical Sciences 1995; 310(Suppl. 1): S101–8.CrossRefGoogle Scholar
17Rolland-Cachera, MF, Deheeger, M, Akrout, M, Bellisle, F. Influence of macronutrients on adiposity development: a follow up study of nutrition and growth from 10 months to 8 years of age. International Journal of Obesity 1995; 1995; 19: 573–8.Google ScholarPubMed
18Rothman, KJ, Greenland, S. Modern Epidemiology, 2nd ed. Philadelphia, PA: Lippincott-Raven, 1998.Google Scholar
19Bray, GA, Bouchard, C, James, WPT. Handbook of Obesity. New York: Marcel Dekker, 1998.Google Scholar
20Harrison, GG, Galal, OM, Ibrahim, N, Khorshid, A, Stormer, A, Leslie, J, et al. Underreporting of food intake by dietary recall is not universal: a comparison of data from Egyptian and American women. Journal of Nutrition 2000; 130: 2049–54.CrossRefGoogle Scholar
21Carter, LM, Whiting, SJ. Underreporting of energy intake, socioeconomic status, and expression of nutrient intake. Nutrition Reviews 1998; 56: 179–82.CrossRefGoogle ScholarPubMed
22Schoeller, DA. How accurate is self-reported dietary energy intake? Nutrition Reviews 1990; 48: 373–9.CrossRefGoogle ScholarPubMed
23Astrup, A, Ryan, L, Grunwald, GK, Storgaard, M, Saris, W, Melanson, E, et al. The role of dietary fat in body fatness: evidence from a preliminary meta-analysis of ad libitum low-fat dietary intervention studies. British Journal of Nutrition 2000; 83(Suppl. 1): S25–32.CrossRefGoogle ScholarPubMed
24Flatt, JP. Dietary fat, carbohydrate balance, and weight maintenance. Annuals of the New York Academy of Sciences 1993; 683: 122–40.CrossRefGoogle ScholarPubMed
25Hill, JO, Melanson, EL, Wyatt, HT. Dietary fat intake and regulation of energy balance: implications for obesity. Journal of Nutrition 2000; 130(Suppl. 2S): 284S–8S.CrossRefGoogle ScholarPubMed
26Blundell, JE, Macdiarmid, JI. Passive overconsumption. Fat intake and short-term energy balance. Annals of the New York Academy of Sciences 1997; 827: 392407.CrossRefGoogle ScholarPubMed
27Appleby, PN, Thorogood, M, Mann, JI, Key, TJ. Low body mass index in non-meat eaters: the possible roles of animal fat, dietary fibre and alcohol. International Journal of Obesity and Related Metabolic Disorders 1998; 22: 454–60.CrossRefGoogle ScholarPubMed
28China National Bureau of Statistics. China Statistical Year-book 1999. Beijing: China Statistical Publishing House, 1999.Google Scholar
29Ge, K. The Dietary and Nutritional Status of Chinese Population – Adults (1992 National Nutrition Survey). Beijing: People's Medical Publishing House, 1996.Google Scholar
30Jing, J. Feeding China's Little Emperors: Food, Children, and Social Change. Stanford, CA: Stanford University Press, 2000.CrossRefGoogle Scholar
31Wang, Y, Ge, K, Popkin, BM. Tracking of body mass index from childhood to adolescence: a 6-year follow-up study in China. American Journal of Clinical Nutrition 2000; 72: 1018–24.CrossRefGoogle Scholar
32Zhai, F, Guo, X, Popkin, B, Ma, L, Qang, Q, Yu, W, et al. The evaluation of the 24-hour individual recall method in China. Food and Nutrition Bulletin 1996; 17: 154–61.CrossRefGoogle Scholar
33Popkins, BM, Lu, B, Zhai, F. Understanding the nutrition transition: measuring rapid dietary changes in transitional countries. Public Health Nutrition 2002; 5(6A): 947–53.CrossRefGoogle Scholar
34Institute of Nutrition and Food Hygiene, Chinese Academy of Preventive Medicine. Food Composition Table. Beijing: People's Health Press, 1991.Google Scholar
35US Department of Health and Human Services. Plan and Operation of the Third National Health and Nutrition Examination, Centers for Disease Control and Prevention. The Third National Health and Nutrition Examination Survey (NHANES III 1998–1994) Reference Manuals and Reports [CD-ROM]. Bethesda, MD: National Center for Health Statistics, 1996.Google Scholar
36World Health Organization (WHO). Physical Status, The Use and Interpretation of Anthropometry. Report of a WHO Expert Committee. WHO Technical Report Series No. 854. Geneva: WHO, 1995.Google Scholar
37Cole, TJ, Bellizzi, MC, Flegal, KM, Dietz, WH. Establishing a standard definition for child overweight and obesity worldwide: international survey. British Medical Journal 2000; 320: 1240–3.CrossRefGoogle ScholarPubMed
38Dietz, WH, Robinson, TN. Use of the body mass index (BMI) as a measure of overweight in children and adolescents. Journal of Pediatrics 1998; 132: 191–3.Google ScholarPubMed
39Himes, JH, Dietz, WH. Guidelines for overweight in adolescent preventive services: recommendations from an expert committee. The Expert Committee on Clinical Guidelines for Overweight in Adolescent Preventive Services. American Journal of Clinical Nutrition 1994; 59: 307–16.CrossRefGoogle Scholar
40Kuczmarski, RJ, Ogden, CL, Grummer-Strawn, LM, Flegal, KM, Guo, SS, Wei, R, et al. CDC growth charts: United States. Advance Data 2000; 314: 127.Google Scholar
41Mahan, LK, Escott-Stump, S. Krause's Food, Nutrition, and Diet Therapy, 9th ed. Philadelphia, PA: WB Saunders, 1996.Google Scholar
42Trahms, CM, Pipes, PL. Nutrition in Infancy and Childhood, 6th ed. New York: WCB/McGraw Hill, 1997.Google Scholar
43Willett, WC. Nutritional Epidemiology. New York: Oxford University Press, 1998; 273301.CrossRefGoogle Scholar
44Stokes, ME, Davis, CS, Koch, CG. Categorical Data Analysis using the SAS System. Cary, NC: SAS Institute, Inc., 1995.Google Scholar
45Bender, R, Lange, S. Adjusting for multiple testing – when and how? Journal of Clinical Epidemiology 2001; 54: 343–9.CrossRefGoogle Scholar
46Thompson, JR. Re: ‘Multiple comparisons and related issues in the interpretation of epidemiologic data’ [invited commentary]. American Journal of Epidemiology 1998; 147: 801–6, 815.CrossRefGoogle ScholarPubMed
47Rothman, KJ. No adjustments are needed for multiple comparisons. Epidemiology 1990; 1: 43–6.CrossRefGoogle ScholarPubMed
48Savitz, DA, Olshan, AF. Multiple comparisons and related issues in the interpretation of epidemiologic data. American Journal of Epidemiology 1995; 142: 904–8.CrossRefGoogle ScholarPubMed
49Savitz, DA, Olshan, AF. Describing data requires no adjustment for multiple comparisons: a reply from Savitz and Olshan. American Journal of Epidemiology 1998; 147: 813–4.CrossRefGoogle ScholarPubMed
50Mo-suwan, L, Tongkumchum, P, Puetpaiboon, A. Determinants of overweight tracking from childhood to adolescence: a 5 y follow-up study of Hat Yai school children. International Journal of Obesity and Related Metabolic Disorders 2000; 24: 1642–7.CrossRefGoogle Scholar
51Wang, Y, Wang, JQ, Hesketh, T, Qu, JD, Mulligan, J, Kinra, S. Standard definition of child overweight and obesity worldwide [letter]. British Medical Journal 2000; 321: 1158–9.CrossRefGoogle ScholarPubMed
52Wang, Y, Wang, JQ. A comparison of different international references for the assessment of child and adolescent overweight and obesity in different populations. European Journal of Clinical Nutrition 2002; 56: 973–82.CrossRefGoogle ScholarPubMed
53Deurenberg, P, Yap, M. The assessment of obesity: methods for measuring body fat and global prevalence of obesity. Baillières Best Practice & Research: Clinical Endocrinology & Metabolism 1999; 13: 111.Google ScholarPubMed
54Ge, K. The Dietary and Nutritional Status of Chinese Population – Children and Adolescents (1992 National Nutrition Survey). Beijing: People's Medical Publishing House, 1999.Google Scholar
55Popkin, BM, Richards, MK, Montiero, CA. Stunting is associated with overweight in children of four nations that are undergoing the nutrition transition. Journal of Nutrition 1996; 126: 3009–16.CrossRefGoogle ScholarPubMed
56Hoffman, DJ, Sawaya, AL, Verreschi, I, Tucker, KL, Roberts, SB. Why are nutritionally stunted children at increased risk of obesity? Studies of metabolic rate and fat oxidation in shantytown children from Sao Paulo, Brazil. American Journal of Clinical Nutrition 2000; 72: 702–7.CrossRefGoogle ScholarPubMed
57Boersma, B, Wit, JM. Catch-up growth. Endocrine Reviews 1997; 18: 646–61.CrossRefGoogle ScholarPubMed
58Paeratakul, S, Popkin, BM, Kohlmeier, L, Hertz-Picciotto, I, Guo, X, Edwards, LJ. Measurement error in dietary data: implications for the epidemiologic study of the diet–disease relationship. European Journal of Clinical Nutrition 1998; 52: 722–7.CrossRefGoogle ScholarPubMed
59Goldberg, GR, Black, AE, Jebb, SA, Cole, TJ, Murgatroyd, PR, Coward, WA, et al. Critical evaluation of energy intake data using fundamental principles of energy physiology: 1. Derivation of cut-off limits to identify under-recording. European Journal of Clinical Nutrition 1991; 45: 569–81.Google ScholarPubMed
60Horton, TJ, Drougas, H, Brachey, A, Reed, GW, Peters, JC, Hill, JO. Fat and carbohydrate overfeeding in humans: different effects on energy storage. American Journal of Clinical Nutrition 1995; 62: 1929.CrossRefGoogle ScholarPubMed
61De Simone, M, Farello, G, Palumbo, M, Gentile, T, Ciuffreda, M, Olioso, P, et al. Growth charts, growth velocity and bone development in childhood obesity. International Journal of Obesity 1995; 19: 851–7.Google ScholarPubMed
62Falorni, A, Galmacci, G, Bini, V, Faraoni, F, Molinari, D, Cabiati, G, et al. Using obese-specific charts of height and height velocity for assessment of growth in obese children and adolescents during weight excess reduction. European Journal of Clinical Nutrition 1999; 53: 181–8.CrossRefGoogle ScholarPubMed
63Epstein, LH, McCurley, J, Valoski, A, Wing, RR. Growth in obese children treated for obesity. American Journal of Diseases of Children 1990; 144: 1360–4.Google ScholarPubMed
64He, Q, Karlberg, J. BMI in childhood and its association with height gain, timing of puberty and final height. Pediatric Research 2001; 49: 244–51.CrossRefGoogle ScholarPubMed
65Beunen, GP, Malina, RM, Lefevre, JA, Claessens, AL, Renson, R, Vanreusel, B. Adiposity and biological maturity in girls 6–16 years of age. International Journal of Obesity 1994; 18: 542–6.Google ScholarPubMed
66Garn, SM, LaVelle, M, Rosenberg, KR, Hawthom, VM. Maturational timing as a factor in female fatness and obesity. American Journal of Clinical Nutrition 1986; 43: 879–83.CrossRefGoogle ScholarPubMed
67De Ridder, CM, Thijssen, JHH, Bruning, PF, Van den Brande, JL, Zonderland, ML, Erich, WBM. Body fat mass, body fat distribution, and pubertal development: a longitudinal study of physical and hormonal sexual maturation of girls. Journal of Clinical Endocrinology and Metabolism 1992; 75: 442–6.Google ScholarPubMed
68Van Lenthe, FJ, Kemper, CG, van Mechelen, W. Rapid maturation in adolescence results in greater obesity in adulthood: the Amsterdam Growth and Health Study. American Journal of Clinical Nutrition 1996; 64: 1824.CrossRefGoogle ScholarPubMed
69Adair, LS, Gordon-Larsen, P. Maturational timing and overweight prevalence in US adolescent girls. American Journal of Public Health 2001; 91: 642–4.Google ScholarPubMed
70Wang, Y. Is obesity associated with early sexual maturation? A comparison of the association in American boys versus girls. Pediatrics 2002; 110: 903–10.CrossRefGoogle ScholarPubMed