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Body structure, muscular strength and living conditions of primary school children in Warsaw

Published online by Cambridge University Press:  20 February 2020

Anna Siniarska
Affiliation:
Department of Human Biology, Institute of Biological Sciences, Faculty of Biology and Environmental Sciences, Cardinal Stefan Wyszynski University in Warsaw, Warsaw, Poland
Joanna Nieczuja-Dwojacka*
Affiliation:
Department of Human Biology, Institute of Biological Sciences, Faculty of Biology and Environmental Sciences, Cardinal Stefan Wyszynski University in Warsaw, Warsaw, Poland
Małgorzata Grochowska
Affiliation:
Department of Human Biology, Institute of Biological Sciences, Faculty of Biology and Environmental Sciences, Cardinal Stefan Wyszynski University in Warsaw, Warsaw, Poland
Sławomir Kozieł
Affiliation:
Department of Anthropology, Ludwik Hirszfeld Institute of Immunology and Experimental Therapy, Polish Academy of Sciences, Wroclaw, Poland
*
*Corresponding author. Email: [email protected]

Abstract

The aim of this study was to determine whether the living conditions of school children affects their body structure and muscular strength. Data were taken from 400 girls and 341 boys aged 7–15 years attending nine primary schools in Warsaw in 1997. A questionnaire was completed, anthropological measurements made and two muscular strength tests conducted. The questionnaire asked questions on the children’s level of education, their parents’ professions and monthly incomes, the number of persons in the family and the number of rooms in the family’s apartment/home. Body height, body weight, chest and arm circumferences, grip strength and vertical jump height were measured and used to calculate body mass index, Marty’s Index and the Sargent Vertical Jump Index. Statistical tests included Student’s t-test, Principal Component Analysis (PCA) and multiple regression analysis. Body height, chest circumference, Sargent Vertical Jump Index and grip strength were significantly greater in the boys than the girls. Two factors, namely ‘socioeconomic status’ (F1) and ‘family size’ (F2), describing living conditions, were isolated after PCA. Boys from bigger families (F2) were shorter, with lower weights and BMIs, smaller chest and arm circumferences and greater grip strengths than those from smaller families, whereas girls from families of lower socioeconomic status (F1) weighed less and had greater BMIs and arm circumferences than those from higher socioeconomic status families. The results suggest that boys seem to be more ‘ecosensitive’ than girls.

Type
Research Article
Copyright
© The Author(s) 2020. Published by Cambridge University Press

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References

Akhtar, M, Bhatty, N, Sattar, M and Javed, MT (2001) Comparison of nutritional status in children of different socio-economic statuses. Medical Journal of the Islamic World Academy of Sciences 14(3), 97102.Google Scholar
Al-Agha, AE, Tatwany, BO, Aiash, DA, Mandourah, LA and Abukhalil, NT (2015) The effect of socioeconomic status, number of siblings and parental of education on children body mass index at Jeddah, Saudi Arabia: cross sectional study. Family Medicine & Medical Science Research 4, 184.CrossRefGoogle Scholar
Alam, AA (2008) Obesity among female school children in North West Riyadh in relation to affluent lifestyle. Saudi Medical Journal 29, 11391144.Google ScholarPubMed
Artaria, MD (2010) Socioeconomic and genetic factors influencing the strength, weight, length and width measurements of children. Folia Medica Indonesiana 46(3), 161166.Google Scholar
Bann, D, Johnson, W, Li, L, Kuh, D and Hardy, R (2018) Socioeconomic inequalities in childhood and adolescent body-mass index, weight, and height from 1953 to 2015: an analysis of four longitudinal, observational, British birth cohort studies. Lancet Public Health 3(4), 194203.CrossRefGoogle ScholarPubMed
Barriuso, L, Miqueleiz, E, Albaladejo, R, Villanueva, R, Santos, JM and Regidor, E (2015) Socioeconomic position and childhood-adolescent weight status in rich countries: a systematic review, 1990–2013, BMC Pediatrics 15, 129.CrossRefGoogle Scholar
Birnie, K, Cooper, R, Martin, RM, Kuh, D, Sayer, AA, Alvarado, BE and Hardy, R (2011) Childhood socioeconomic position and objectively measured physical capability levels in adulthood: a systematic review and metanalysis. PLoS One 6: e15564.Google Scholar
Bogin, B and MacVean, RB (1981) Body composition and nutritional status of urban Guatemalan children of high and low socioeconomic class. American Journal of Physical Anthropology 55(4), 543551.CrossRefGoogle ScholarPubMed
Bradley, RH and Corwyn, RF (2002) Socioeconomic status and child development. Annual Review of Psychology 53, 371399.CrossRefGoogle ScholarPubMed
Charzewska, J, Chabros, E, Jajszczyk, B, Rogalska-Niedźwiedź, M and Chwojnowska, Z (2004) Wysokość ciała młodzieży z Warszawy na tle kolejnych okresów ekonomii. In Kaczanowski, K, Bergman, P, Charzewska, J, Piechaczek, H (eds) Trendy sekularne na tle zmian cywilizacyjnych [in Polish]. Siódme Warsztaty Antropologiczne, AWF, Warsawa, Warsaw, pp. 7584.Google Scholar
Chen, AY and Escarce, JJ (2014) Family structure and childhood obesity: an analysis through 8th grade. Maternal and Child Health Journal 18(7), 17721777.CrossRefGoogle ScholarPubMed
Chrzanowska, M, Koziel, S and Ulijaszek, SJ (2007) Changes in BMI and the prevalence of overweight and obesity in children and adolescents in Cracow Poland, 1971–2000. Economics and Human Biology 5(3), 370378.CrossRefGoogle Scholar
Derman, O (2013) Adolescents physical, sexual development. Turkey Clinics Journal of Family Medicine – Special Topics 4(1), 711.Google Scholar
El Mouzan, MI, Al Herbish, AS, Al Salloum, AA, Foster, PJ, Al Omar, AA, Qurachi, MM and Kecojevic, T (2010) Pattern of sex differences in growth of Saudi children and adolescents. Gender Medicine 7(1), 4754.CrossRefGoogle ScholarPubMed
Freitas, D, Maia, J, Beunen, G, Claessens, A, Thomis, M, Marques, A and Lefevre, J (2007) Socio-economic status, growth, physical activity and fitness: the Madeira Growth Study. Annals of Human Biology 34, 107122.CrossRefGoogle ScholarPubMed
Giagazoglou, P, Kyparos, A, Fotiadou, E and Angelopoluou, N (2007) The effect of residence area and mother’s education on motor development of preschool-aged children in Greece. Early Child Development and Care 177, 479492.CrossRefGoogle Scholar
Grzega, U (2015) Changes in consumption in Poland in the period of transformation. Journal of International Students 8(3), 152163.Google Scholar
Grzelak, J, Nieczuja-Dwojacka, J, Siniarska, A and Samul, E (2015) Budowa i proporcje ciała warszawskiej młodzieży gimnazjalnej [in Polish]. Studia Ecologiae et Bioethicae 13(3), 85103.CrossRefGoogle Scholar
Hakeem, R (2001) Socio-economic differences in height and body mass index of children and adults living in urban areas of Karachi, Pakistan. European Journal of Clinical Nutrition 55(5), 400406.CrossRefGoogle ScholarPubMed
Handelsman, DJ, Hirschberg, AL and Bermon, S (2018) Circulating testosterone as the hormonal basis of sex differences in athletic performance. Endocrine Reviews 39(5), 803829.CrossRefGoogle ScholarPubMed
Hurbo, T (2008) Secular changes in height, weight and chest circumference of 4–7 year old children from Minsk in the 20th century. Acta Medica Lituanica 15(4), 222228.Google Scholar
Ignasiak, Z, Sławińska, T and Domaradzki, J (2002) The influence of social-economic factors on the morphofunctional growth of children considering the urbanisation factor aspect. Acta Universitatis Palackianae Olomucensis. Gymnica 32(2), 934.Google Scholar
Jansen, W and Hazebroek-Kampschreur, AA (1997) Differences in height and weight between children living in neighborhoods of different socioeconomic status. Acta Paediatrica 86(2), 224225.Google Scholar
Jeannot, E, Mahler, P, Elia, N, Cerruti, B and Chastonnay, P (2015) Sociodemographic and economic determinants of overweight and obesity for public-school children in Geneva State, Switzerland: a cross-sectional study. International Journal of Preventive Medicine 6, 39.CrossRefGoogle ScholarPubMed
Jeyakumar, A, Ghugre, P and Gadhave, S (2013) Mid-upper-arm circumference (MUAC) as a simple measure to assess the nutritional status of adolescent girls as compared with BMI. Infant, Child & Adolescent Nutrition 5(1), 2225.CrossRefGoogle Scholar
Jo, Y (2014) What money can buy: family income and childhood obesity. Economics and Human Biology 15, 112.CrossRefGoogle ScholarPubMed
Jones, A (2016) Intergenerational educational attainment, family characteristics and child obesity. Journal of Biosocial Science 48, 557576.Google ScholarPubMed
Kolekar, SM and Sawant, SU (2013) Mid-arm circumference and triceps skin-fold thickness in rural school children. International Journal of Recent Trends in Science and Technology 7(2), 5659.Google Scholar
Kowalkowska, J, Wadolowska, L, Wuenstel, JW, Słowińska, MA and Niedźwiedzka, E (2014) Socioeconomic status and overweight prevalence in Polish adolescents: the impact of single factors and a complex index of socioeconomic status in respect to age and sex. Iranian Journal of Public Health 43(7), 913925.Google Scholar
Martin, R and Saller, K (1957) Lehrbuch der Anthropologie. Fischer Verlag, Stuttgart.Google Scholar
Mazur, A, Klimek, K, Telega, G, Hejda, G, Wdowiak, L and Małecka-Tendera, E (2008) Risk factors for obesity development in school children from south-eastern Poland. Annals of Agricultural and Environmental Medicine 15, 281285.Google ScholarPubMed
Meko, LN, Slabber-Stretch, M, Walsh, CM, Kruger, SH and Nel, M (2015) School environment, socioeconomic status and weight of children in Bloemfontein, South Africa. African Journal of Primary Health & Family Medicine 7(1), doi: 10.4102/phcfm.v7i1.751.Google ScholarPubMed
Mészáros, Z, Mészáros, J, Szmodis, M, Pampakas, P, Osváth, P and Völgyi, E (2008) Primary school child development – issues of socioeconomic status. Kinesiology 40, 153161.Google Scholar
O’Dea, JA and Caputi, P (2001) Association between socioeconomic status, weight, age and gender, and the body image and weight control practices of 6- to 19-year-old children and adolescents. Health Education Research 16(5), 521532.Google ScholarPubMed
Otero, J, Cohen, DD, Herrera, VM, Camacho, PA, Bernal, O and López-Jaramillo, P (2016) Sociodemographic factors related to handgrip strength in children and adolescents in a middle income country: the SALUS study. American Journal of Human Biology 29(1), doi: 10.1002/ajhb.22896.Google Scholar
Özdemir, A, Utkualp, N and Palloş, A (2016) Physical and psychosocial effects of the changes in adolescence period. International Journal of Caring Sciences 9(2), 717.Google Scholar
Piko, B and Keresztes, N (2008) Sociodemographic and socioeconomic variations in leisure time physical activity in a sample of Hungarian youth. International Journal of Public Health 53, 306310.Google Scholar
Puciato, D (2010) Morpho-functional development of children and adolescents from Jedlina-Zdrój with regard to objective quality of life of their families. Human Movement 11(1), 6670.CrossRefGoogle Scholar
Puciato, D, Mynarski, W, Rozpara, M, Borysiuk, Z and Szyguła, R (2011) Motor development of children and adolescents aged 8–16 years in view of their somatic build and objective quality of life of their families. Journal of Human Kinetics 28, 4553.Google ScholarPubMed
Silva, DA, Pelegrini, A, Petroski, EL and Gaya, AC (2010) Comparison between the growth of Brazilian children and adolescents and the reference growth charts: data from a Brazilian project. Jornal de Pediatria 86(2), 115120.CrossRefGoogle ScholarPubMed
Siniarska, A (1996) Family environment, parents’ constitutional characteristics and biological development of children. Journal of Human Ecology Special Issue 4, 145183.Google Scholar
Suka, M, Sugimori, H, Yoshida, K, Kanayama, H, Sekine, M, Yamagami, T and Kagamimori, S (2005) Body image and body satisfaction play important roles in the path to dieting behavior in Japanese preadolescents: the Toyama birth cohort study. Environmental Health and Preventive Medicine 10(6), 324330.CrossRefGoogle ScholarPubMed
Suliga, E (2009) Socio-economic differentiation of the growth and the dietary intake of Polish boys aged 7–16 years. Annals of Human Biology 36(2), 199210.CrossRefGoogle ScholarPubMed
Tandon, PS, Zhou, C, Sallis, JF, Cain, KL, Frank, LD and Saelens, BE (2012) Home environment relationships with children’s physical activity, sedentary time, and screen time by socioeconomic status. International Journal of Behavioral Nutrition and Physical Activity 9, 88.CrossRefGoogle ScholarPubMed
Thakur, R and Gautam, RK (2017) Pre and post pubertal growth difference among boys and girls of 5-18 years of age: a cross sectional study among central Indian Population. Human Biology Review 6(2), 164187.Google Scholar
Uramowska-Zyto, B and Kozłowska-Wojciechowska, M (2003) Zachowania żywieniowe rodzin ubogich [in Polish]. Roczniki PZH 54, 221229 Google Scholar
Vieweg, VR, Johnston, CH, Lanier, JO, Fernandez, A and Pandurangi, AK (2007) Correlation between high risk obesity groups and low socioeconomic status in school children. Southern Medical Journal 100, 813.CrossRefGoogle ScholarPubMed
Vigenerova, J, Humenikova, L, Brabec, M, Riedlova, L and Blaha, P (2007) Long-term changes in body weight, BMI and adiposity rebound among children and adolescents in the Czech Republic. Economics and Human Biology 5 (Supplement), 409425.CrossRefGoogle Scholar
Wells, JCK (2007) Sexual dimorphism in body composition. Best Practice & Research: Clinical Endocrinology & Metabolism 21, 415430.CrossRefGoogle ScholarPubMed
Wronka, I (2014) Socioeconomic status, body mass index and prevalence of underweight and overweight among Polish girls aged 7–18: a longitudinal study. Journal of Biosocial Science 46(4), 449461.Google ScholarPubMed
Zhi, X, Xi, W, Gao, L, Huang, J, Yang, X, Dai, W, Deng, Y and Zhang, X (2015) Physical fitness status of children and adolescents in Tianjin of China during past three decades: a cross-sectional study. International Journal of Clinical and Experimental Medicine 8(6), 93069312.Google ScholarPubMed