Background To compare the performance of Stunkard’s current body size (CBS) with self-reported body mass index (BMI), waist circumference (WC) and waist to stature ratio (WSR) in predicting weight status in Chinese adolescents, and to determine the CBS cutoffs for overweight/obesity and underweight. Methodology This cross-sectional study was conducted in a sample of 5,418 secondary school students (45.2% boys; mean age 14.7 years). Height and weight were measured by trained teachers or researchers. Subjects were classified as underweight, normal weight, or overweight/obese according to the International Obesity Task Force cutoffs. Subjects were asked to select the figure that best resembled their CBS on the Stunkard’s figure rating scale. Self-reported height, weight, WC and WSR were also obtained. The performance of CBS, self-reported BMI, WC and WSR as a weight status indicator was analysed by sex-specific receiver operating characteristic curves. The optimal CBS cutoffs for underweight and overweight/obesity were determined based on the Youden Index. Principal Findings Apart from self-reported BMI, CBS had the greatest area under curve (AUC) for underweight in boys (0.82) and girls (0.81). For overweight/obesity, CBS also had a greater AUC (0.85) than self-reported WC and WSR in boys, and an AUC (0.81) comparable to self-reported WC and WSR in girls. In general, CBS values of 3 and 5 appeared to be the optimal cutoffs for underweight and overweight/obesity, respectively, in different sex-age subgroups. Conclusions/Significance CBS is a potentially useful indicator to assess weight status of adolescents when measured and self-reported BMI are not available.
References
[1]
Must A, Phillips SM, Stunkard AJ, Naumova EN (2002) Expert opinion on body mass index percentiles for figure drawings at menarche. International Journal of Obesity 26: 876–879.
[2]
Stunkard A, Sorensen T, Schulsinger F (1983) Use of the Danish Adoption Register for the study of obesity and thinness. Research Publications - Association for Research in Nervous & Mental Disease 60: 115–120.
[3]
Brener ND, McManus T, Galuska DA, Lowry R, Wechsler H (2003) Reliability and validity of self-reported height and weight among high school students. Journal of Adolescent Health 32: 281–287.
[4]
Crawley H, Portides G (1995) Self-reported versus measured height, weight and body mass index amongst 16–17 year old British teenagers. International Journal of Obesity 19: 579–584.
[5]
Panjikkaran S, Kumari K (2009) Augmenting BMI and waist-height ratio for establishing more efficient obesity percentiles among school-going children. Indian Journal of Community Medicine 34: 135–139.
[6]
Liu A, Hills A, Hu X, Li Y, Du L, et al. (2010) Waist circumference cut-off values for the prediction of cardiovascular risk factors clustering in Chinese school-aged children: a cross-sectional study. BMC Public Health 10: 82.
[7]
Mak KK, Ho SY, Lo WS, Thomas NG, McManus AM, et al. (2010) The use of waist-to-stature ratio to identify underweight and overweight in adolescents. International Journal of Pediatric Obesity 5: 390–395.
[8]
Garnett SP, Baur LA, Cowell CT (2008) Waist-to-height ratio: a simple option for determining excess central adiposity in young people. International Journal of Obesity 32: 1028–1030.
[9]
Munoz-Cachon MJ, Salces I, Arroyo M, Ansotegui L, Rocandio AM, et al. (2009) Overweight and obesity: prediction by silhouettes in young adults. Obesity 17: 545–549.
[10]
Stunkard A (2000) Old and new scales for the assessment of body image. Perceptual and Motor Skills 90: 930.
[11]
Bulik CM, Wade TD, Heath AC, Martin NG, Stunkard AJ, et al. (2001) Relating body mass index to figural stimuli: Population-based normative data for Caucasians. International Journal of Obesity 25: 1517–1524.
[12]
Truby H, Paxton SJ (2002) Development of the Children’s Body Image Scale. British Journal of Clinical Psychology 41: 185–203.
[13]
Lo WS, Ho SY, Wong BYM, Mak KK, Lam TH (2011) Validity and test-retest reliability in assessing current body size with figure drawings in Chinese adolescents. International Journal of Pediatric Obesity 6: e107–e113.
[14]
Lo WS, Ho SY, Mak KK, Wong BYM, Lai YK, et al. (2009) Prospective effects of weight perception and weight comments on psychological health among Chinese adolescents. Acta P?diatrica 98: 1959–1964.
[15]
Wong BYM, Ho SY, Mak KK, Lo WS, Lam TH (2010) Adolescents’ physical activity: Competition between perceived neighborhood sport facilities and home media resources. International Journal of Pediatric Obesity 5: 169–176.
[16]
Grant JP (1994) Duke procedure for super obesity: Preliminary report with 3.5-year follow- up. Surgery 115: 718–726.
[17]
Shannon B, Smiciklas-Wright H, Wang MQ, Shannon B, Smiciklas-Wright H, et al. (1991) Inaccuracies in self-reported weights and heights of a sample of sixth-grade children. Journal of the American Dietetic Association 91: 675–678.
[18]
Centers for Disease Control and Prevention: National Health and Nutrition Examination Survey (2000) National Health and Nutrition Examination Survey Anthropometry procedures manual. Hyattsville, MD: National Center for Health Statistics, Centers for Disease Control and Prevention.
[19]
Cohen J (1988) Statistical power analysis for the behavioral sciences. Hillsdale, NJ: Lawrence Erlbaum Associates.
[20]
Cole TJ, Bellizzi MC, Flegal KM, Dietz WH (2000) Establishing a standard definition for child overweight and obesity worldwide: international survey. BMJ 320: 1240–1243.
[21]
Cole TJ, Flegal KM, Nicholls D, Jackson AA (2007) Body mass index cut offs to define thinness in children and adolescents: international survey. BMJ 335: 194–197.
[22]
Bohning D, Bohning W, Holling H (2008) Revisiting Youden’s index as a useful measure of the misclassification error in meta-analysis of diagnostic studies. Statistical Methods in Medical Research 17: 543–554.
Howell S, Coory M, Martin J, Duckett S (2009) Using routine inpatient data to identify patients at risk of hospital readmission. BMC Health Services Research 9: 96.
[25]
SPSS Inc. (2009) SPSS for Windows, Release 17.0. Chicago: SPSS Inc.
[26]
Lo WS, Ho SY, Mak KK, Lai HK, Lai YK, et al. (2011) Weight misperception and psychosocial health in normal weight Chinese adolescents. International Journal of Pediatric Obesity 6: e381–389.
[27]
Morimoto A, Nishimura R, Kanda A, Sano H, Matsudaira T, et al. (2007) Waist circumference estimation from BMI in Japanese children. Diabetes Research and Clinical Practice 75: 96–98.
[28]
Li C, Ford ES, Mokdad AH, Cook S (2006) Recent Trends in Waist Circumference and Waist-Height Ratio Among US Children and Adolescents. Pediatrics 118: e1390–1398.
[29]
Tybor DJ, Lichtenstein AH, Dallal GE, Daniels SR, Must A (2011) Independent effects of age-related changes in waist circumference and BMI z scores in predicting cardiovascular disease risk factors in a prospective cohort of adolescent females. The American Journal of Clinical Nutrition 93: 392–401.
[30]
Bosy-Westphal A, Booke CA, Blocker T, Kossel E, Goele K, et al. (2010) Measurement site for waist circumference affects its accuracy as an index of visceral and abdominal subcutaneous fat in a Caucasian population. The Journal of Nutrition 140: 954–961.
[31]
Agarwal SK, Misra A, Aggarwal P, Bardia A, Goel R, et al. (2009) Waist circumference measurement by site, posture, respiratory phase, and meal time: implications for methodology. Obesity 17: 1056–1061.
[32]
Akobeng AK (2007) Understanding diagnostic tests 2: likelihood ratios, pre- and post-test probabilities and their use in clinical practice. Acta P?diatrica 96: 487–491.
[33]
Kuczmarski R, Ogden C, Grummer-Strawn L, Flegal KM, Guo SS, et al.. (2000) CDC growth charts: United States advance data from vital and health statistics, no. 314. Hyattsville, MD: National Center for Health Statistics, Centers for Disease Control and Prevention.
[34]
Wu Q, Suzuki M (2006) Parental obesity and overweight affect the body-fat accumulation in the offspring: The possible effect of a high-fat diet through epigenetic inheritance. Obesity Reviews 7: 201–208.
[35]
Spurrier NJ, Magarey A, Wong C, Spurrier NJ, Magarey A, et al. (2006) Recognition and management of childhood overweight and obesity by clinicians. Journal of Paediatrics & Child Health 42: 411–418.
[36]
Deurenberg-Yap M, Niti M, Foo LL, Ng SA, Loke KY (2009) Diagnostic accuracy of anthropometric indices for obesity screening among Asian adolescents. Annals of the Academy of Medicine Singapore 38: 3–8.
[37]
Neovius M, Rasmussen F (2007) Evaluation of BMI-based classification of adolescent overweight and obesity: choice of percentage body fat cutoffs exerts a large influence. The COMPASS study. European Journal of Clinical Nutrition 62: 1201–1207.
