Nutritional status and effect of physical activity on anthropmetric characteristics of Bengalee Muslim adolescents boys of North 24 Parganas, West Bengal, India

  • Argina Khatun Department of Anthropology, Vidyasagar University, Midnapore, West Bengal, India
  • Mithu Bhadra Department of Anthropology, Dinabandhu Mahavidyalaya, Bongaon, West Bengal, India
  • Ashish Mukhopadhyay Departmentof Anthropology, A.P.C. College, New Barrackpore, West Bengal, India
  • Kaushik Bose Department of Anthropology, Vidyasagar University, Midnapore, West Bengal, India
Keywords: Muslims, Boys, Adolescents, Anthropometry, Undernutrition, Physical Exercise

Abstract

A cross-sectional study of 522 Bengalee Muslim boys aged 10-17 years of Deganga, North 24 Parganas, West Bengal, India, was undertaken to study their age differences in nutritional status and effect of physical activity on anthropometric characteristics. The subjects were classified into eight age groups: 10-10.9 years (n = 56), 11-11.9 (n = 63), 12-12.9 (n = 65), 13- 13.9 (n = 77), 14-14.9 (n = 84), 15-15.9 (n = 71), 16-16.9 (n = 60), 17-17.9 (46). Subjects were also classified into two groups, sedentary (NPE, n=240) and non sedentary (PE, n= 282). Individuals falling below the age specific fifth percentile of the World Health Organization (WHO) recommended National Health and Nutrition Examination Survey (NHANES I) were defined as undernourished. All the anthropometric variables were measured by the following standard anthropometric procedure as recommended by Lohman et al., (1988). Body mass index (BMI) – a popular indicator of generalised adiposity was calculated following the formula of World Health Organization (1995). Skin fold equation of Slaughter et al. (1988) for predicting body fat was utilized to estimate percent body fat (PBF). The overall rate of undernutrition was 52.49%. Results reveals that studied boys, who did not undertook regular physical exercise (NPE), had significantly greater amount of subcutaneous adiposity, PBF, fat mass index (FMI) and sum of 5 skin folds (S5S) than those who undertook regular physical exercise (PE). But the BMI values are similar between sedentary and non sedentary boys group.

References

Agarwal, K.N., Saxena, A., Bansal, A.K., Agarwal, D.K. (2001). Physical growth assessment in adolescence. Ind. Pediatr. 38:1217-1235.
Al-Sendi, A.M., Shetty, P., Musaiger, A.O. (2003). Anthropometric and body composition indicators of Bahraini adolescencts. Ann. Hum. Biol. 30:367- 379.
Bose. K., Das Chaudhuri, A.B. (2003). Age variations in adiposity and body fat composition among older Bengalee Hindu women of Calcutta, India. Anthrop. Anz. 61:311-321.
Bhadra, M., Mukhopadhyay, A., Bose, K. (2004). Sex differences in anthropometric characteristics among 11-14 year old urban Bengalees of North 24 Parganas, West Bengal, India. Anthropologie. XLII: 137-140.
Dietz WH: (1998). Childhood weight affects adult morbidity and mortality. J. Nutr. 128: 411S–414S.
Deurenberg, P., Pieters, J.J.L and Hautvast, J.G.A.J. (1990). The assessment of body fat percentage by skinfold thickness measurements in childhood and young adolescence. Br J. Nutr. 63: 293-303.
Ghosh, A., Bose, K., Das Chaudhuri, A.B. (2000). Comparison of anthropometric characteristics between normotensive and hypertensive individuals among a population of Bengalee Hindu elderly men in Calcutta, India. J. Roy Soc. Hlth. 120: 100-106.
Ghosh ,A., Bose, K., Chakravarti, S., Das Chaudhuri, A.B., Chattopadhyay, J., Dasgupta, G. and Sengupta, S. (2004). Relationship of waist circumference and waist-hip ratio with metabolic risk factors of coronary heart disease among Bengalee Hindu men of Kolkata, India. J. Roy Soc. Hlth.124: 86-91.
Ghosh, A. (2010). Association of anthropometry, body composition and physiological measures with physical activity level among the children and adolescents of Asian Indian origin: the Calcutta obesity study. J. Nutr. Health aging. 14(9): 731-735.
Goran, M.I., Ball, G.D. and Cruz, M.L. (2003).Obesity and risk of type 2 diabetes and cardiovascular disease in children and adolescents. J. Clin. Endocrinol. Metab. 88:1417–1427.
Guo, S.S., Chumlea ,W.C., Roche, A.F. and Siervogel, R.M. (1997). Age- and maturity-related changes in body composition during adolescence into adulthood: the Fels longitudinal study. Int. J. Obesity. 21:1167–1175.
Hop, L.T., Gross, R., Giay, T., Schultink, W., Thuan, B.T. and Sastroamidjojo, S. (1997). Longitudinal observation of growth of Vietnamese children in Hanoi, Vietnam from birth to 10 years of age. Eur. J. Clin. Nutr. 51:164-171.
Indian Council of Medical Research (ICMR). (1989). Growth and physical development of Indian infants and children. (Technical Report Series No. 18). New Delhi: Indian Council of Medical Research. Janssen, I., Katzmarzyk, P.T., Srinivasan, S.R., Chen, W., Malina, R.M., Bouchard, C, and Berenson , G.S. (2005). Utility of childhood BMI in the prediction of Adulthood disease: comparison of national and international references. Obes. Res. 13:1106–1115.
Katzmarzyk, P.T., Perusse, L., Malina, R.M., Bergeron, J., Despres, J.P. and Bouchard, C. (2001). Stability of indicators of the metabolic syndrome from childhood and adolescence to young adulthood: the Quebec family study. J. Clin. Epidemiol. 54: 190–195.
Lohman, T.G., Roche, A.F. and Martorell, R. (eds). (1988). Anthropometric standardization reference manual. Chicago: Human Kinetics Books. Mukhopadhyay, A., Bhadra, M. and Bose, K. (2005a). Physical exercise, body mass index, subcutaneous adiposity and body composition among Bengalee boys aged 10-17 years of Kolkata, India. Anthropol. Anz. 63:93-101.
Mueller, W.H., Chan, W., Meininger, J.C. (2003). Utility of different body composition indicators: demographic influences and associations with blood pressures and heart rates in adolescents (Heartfelt Study). Ann. Hum. Biol. 30: 714-727.
Pawloski, L.R. 2002. Growth and development of adolescent girls from the Segou region of Mali (West Africa). Am. J. Phys. Anthropol. 117: 364-372.
Slaughter, M.H., Lohman, T.G., Boileau, R.A., Horswill, C.A., Stillman, R.J., van Loan, MD. And Bemben, D.A. (1988). Skin fold equations for estimation of body fatness in children and youth. Hum. Biol. 60: 709-723.
Swaminathan, S. and Vaz , M. (2012). Childhood physical activity, sports and exercise and non communicable disease: a Special Focus on India. Indian J. Pediatr. (epub ahed of print). SPSS Inc. (1999). Statistical Package for Social Sciences. Standard version 16.0 for Windows. Chicago: SPSS Inc. Valdez, R., Seidel, J.C., Ahy, Y.I. and Weiss, K.M. (1993). A new index of abdominal adiposity as an indicator of risk for cardiovascular disease: a cross population study. Int. J. Obes. 17: 77- 82.
Van Itallie, T.B., Yang, M.U., Heymsfield, S.B., Funk, R.C. and Boileau, R.A. (1990). Height normalized indices of the body’s fat free mass and fat mass: potentially useful indicators of nutritional status. Am. J. Clin. Nutr. 52: 953-959.
Venkaiah, K., Damayanti, K., Nayak, M.U. and Vijayaraghavan, K. (2002). Diet and nutritional status of rural adolescents in India. Eur. J. Clin. Nutr. 56: 1119- 1125.
World Health Organization. (1985). Measuring nutritional status. Geneva: World Health Organization. World Health Organization. (1995). Physical status: the use and interpretation of anthropometry. Report of the WHO Expert Committee, Technical Report Series, No. 854. Geneva: World Health Organization.
Published
2016-06-30
How to Cite
Khatun, A., Bhadra, M., Mukhopadhyay, A., & Bose, K. (2016). Nutritional status and effect of physical activity on anthropmetric characteristics of Bengalee Muslim adolescents boys of North 24 Parganas, West Bengal, India. International Journal of Experimental Research and Review, 5, 8-14. Retrieved from https://qtanalytics.in/journals/index.php/IJERR/article/view/1327
Issue
Vol 5 (2016)
Section
Articles

Most read articles by the same author(s)