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Anthropological Review

The Journal of Polish Anthropological Society

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CiteScore 2016: 0.71

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2083-4594
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Fat pattern of athlete and non-athlete girls during puberty

Julia Pápai / Zsófia Tróznai / Tamás Szabó / Attila Szabó
Published Online: 2013-02-20 | DOI: https://doi.org/10.2478/v10044-012-0003-5

Abstract

The study focused on the peculiarities of fat accumulation during maturation. The main purpose of the study was trifold: to detect the alterations in fat gain during breast maturation; to examine fat accumulation after physiological maturation and the influence of breast maturation and sport activity on fatness. The subjects were athlete (N=1428) and non-athlete (N=1030) girls. They were grouped by the stages of breast development. Fat accumulation was followed up until four years after menarche. Regional fat distribution was examined on the basis of skinfolds taken at triceps, scapula, abdomen and thigh. Progressing with breast development, body fat percent increased in both groups, though in non-athletes a decrease was found in stage B4. During sexual maturation the thickness of subcutaneous adipose tissue decreased on the extremities and increased on the trunk. Non-athletes stored more fat on their upper trunk, while athletes did it on their lower trunk. After menarche the differences between athlete and non-athlete girls were preserved. In conclusion it may be stated that during sexual maturation the regional apposition trend of body fat was similar for athletes and non-athletes. The differences emerged in the relative distributions. Athlete girls accumulated proportionally more fat on their lower body, representing better the female-type distribution of body fat than non-athlete girls.

Keywords: breast maturation; menarche; regional fat distribution; athlete girls

  • Adair LS, Gordon-Larsen P. 2001. Maturational timing and overweight prevalence in US adolescent girls. Am J Public Health 91:642-44.PubMedGoogle Scholar

  • Bodzsár ÉB. 2003. A pubertáskor. ELTE Eötvös Kiadó, 120-9.Google Scholar

  • Daniels SR, Morrison JA, Sprecher DL, Khoury P, Kimball TR. 1999. Association of body fat distribution and cardiovascular risk factors in children and adolescents. Circulation 99:541-45.CrossrefPubMedGoogle Scholar

  • Dietz WH. 1994. Critical periods in childhood for the development of obesity. American J Clin Nutr 59:955-99.Google Scholar

  • Drinkwater DT, Ross WD. 1980. Anthropometric fractionation of body mass. In: M Ostyn, G Beunen and J Simons editors. Kinanthropometry II. Baltimore: University Park Press. 178-89.Google Scholar

  • Eisenmann JC, Malina RM. 2002. Age-related changes in subcutaneous adipose tissue of adolescent distance runners and association with blood lipoproteins. Ann Hum Biol 29: 389-97.PubMedCrossrefGoogle Scholar

  • Elbers JHM, Asscheman H, Seidell JC, Gooren JG. 1999. Effects of sex steroid hormones on regional fat depots as assessed by magnetic resonance imaging in transsexuals. Am J Physiol 276:317-25.Google Scholar

  • Frisch RE. 1972. Critical weight at menarche, initiation of the adolescent growth spurt and control of puberty. In: MM Grumbach, GD Grave and FE Mayer, editors. Control of puberty. New York-London-Sydney-Toronto: John Wiley & Sons. 403-423.Google Scholar

  • Garn SM, Lavelle M, Rosenberg KL, Hawthorne VM. 1986. Maturational timing as a factor in female fatness and obesity. Am J Clin Nutr 43:879-83.PubMedGoogle Scholar

  • Guo SS, Chumlea WC, Roche AF, Siervogel RM. 1998. Age and maturity related changes in body composition during adolescence into adulthood: the Fels longitudinal study. Appl Radiat Isotopes 49:581-85.CrossrefGoogle Scholar

  • Hajnis K, Pařízková J, Petrásek R. 2003. Development of centrality indices of subcutaneous fat during growth. Collegium Antropol 27:563-571.Google Scholar

  • Katzmarzyk PT, Malina RM, Song TMK, Bouchard C. 1999. Physique, subcutaneous fat, adipose tissue distribution, and risk factors in the Québec Family Study. Int J Obesity 23:476-84.CrossrefGoogle Scholar

  • Lawlor DA, Chaturvedi N. 2006. Treatment and prevention of obesity - are there critical periods for intervention? Int J Epidemiol 35:3-9.PubMedGoogle Scholar

  • Lenthe FJ, Kemper HCG, Van Mechelen W, Twisk JWR. 1996. Development and tracking of central patterns of subcutaneous fat in adolescence and adulthood: the Amsterdam Growth and Health Study. Int J Epidemiol 25:1162-71.PubMedCrossrefGoogle Scholar

  • Malhotra NK, Simon J. 2008. Marketingkutatás. Budapest: Akadémiai Kiadó.Google Scholar

  • Malina RM. 1996. Regional body composition: age, sex, and ethnic variations. In: AF Roche, SB Heymsfield and TG Lohma, editors. Human body composition. Human Kinetics. 217-29.Google Scholar

  • Malina RM, Bouchard C. 1991. Growth, maturation and physical activity. Human Kinetics, Champaign.Google Scholar

  • Manolopoulos KN, Karpe F, Frayn KN. 2010. Gluteofemoral body fat as a determinant of metabolic health. Int J Obesity 34:949-59.Web of ScienceCrossrefGoogle Scholar

  • Martin R, Saller K. 1957-1966. Lehrbuch der Anthropologie, 3. Band. Fischer, Stuttgart.Google Scholar

  • Moore LL, Gao D, Bradlee ML, Cupples LA, Sundarajan-Ramamurti A, Proctor MH, Hood MY, Singer MR, Ellison RC. 2003. Does early physical activity predict body fat change throughout childhood? Prev Med 37:10-17.Mueller WH. 1982. The changes with age of the anatomical distribution of fat. Soc Sci Med 16:191-6.Google Scholar

  • Pařízková J. 1977. Body fat and physical fitness. Martinus Nijhoff B.V. Medical Division, The Hague.Google Scholar

  • Pápai J. 2000. Utánpótláskorúak testösszetétel és szomatotípus különbségei eredményességi szintjük függvényében (Differences in body composition and somatotype of athletes performing at higher or lower level, in Hung.). Magyar Sporttudományi Szemle. Különszám. Kutatási beszámoló 1997-1999. 57-61.Google Scholar

  • Pápai J, Bodzsár É. 1989/90. Menarcheal age and growth in Jászberény girls. Anthropologiai Közlemények 32:151-8.Google Scholar

  • Pápai J, Tróznai Zs, Szabó T Bodzsár É. 2009. Maturation type and body structure of athlete and non-athlete girls. Société d’Anthropologie de Paris. Des conceptions d’hier aux recherches de demain. Colloque International. Oral presentation.Google Scholar

  • Ramirez ME, Mueller WH. 1980. The development of obesity and fat patterning in Tokelau children. Hum Biol 52:675-87.PubMedGoogle Scholar

  • Ribeiro J, Santos P, Duarte J, Mota J. 2006. Association between overweight and early sexual maturation in Portuguese boys and girls. Ann Hum Biol 33:55-63.PubMedCrossrefGoogle Scholar

  • Ridder CM, Thijssen JHH, Bruning PF, Van den Brande JL. 1992. Body fat mass, body fat distribution, and pubertal development: A longitudinal study of physical and hormonal sexual maturation of girls. J Clin Endocr Metab 75:442-6.Google Scholar

  • Shalitin S, Phillip M. 2003. Role of obesity and leptin in the pubertal process and pubertal growth - a review. Int J Obesity 27:869-74.CrossrefGoogle Scholar

  • Slyper AH. 1998. Childhood obesity, adipose tissue distribution, and the pediatric practitioner. Pediatrics 102: e4.CrossrefGoogle Scholar

  • Tanner JM. 1962. Growth at Adolescence. Blackwell, Oxford. 2nd Edition.Google Scholar

  • Tanner JM, Hiernaux J, Jarman S. 1969. Growth and physique studies. In: JS Weiner and JA Lourie, editors. Human Biology. A guide to field methods. International Biological Programme Handbook 9. Blackwell- Oxford-Edinburgh. 1-76.Google Scholar

  • Taylor RW, Grant AM, Williams SM, Goulding A. 2010. Sex differences in regional body fat distribution from pre- to postpuberty. Obesity 18:1410-16.Web of ScienceCrossrefGoogle Scholar

  • Tróznai Zs, Pápai J. 2008. Sportoló fiatalok testfelépítésének különbségei az eredményesség függvényében (Body structure of young athletes with high- and lower performance profile. In Hung.). In: N Bendiner and J Bognár editors. VI. Országos Sporttudományi Kongreszus II. Magyar Sporttudományi Társaság, Budapest. 226-33.Google Scholar

  • Tróznai Zs, Pápai J. 2005. Sportoló leányok testtáji zsírmegoszlása (Regional distribution of subcutaneous fat in athletic girls, in Hung.). In: A Mónus, editor. IV. Országos Sporttudományi Kongresszus II. Magyar Sporttudományi Társaság, Budapest. 71-9. Google Scholar

  • Wang YMD. 2002. Is obesity associated with early sexual maturation? A comparison of the association in American boys versus girls. Pediatrics 110: 903-10 PubMedCrossrefGoogle Scholar

  • Weber E. 1969. Grundriss der biologischen Statistik, 5. Aufl. Fischer, Jena. Kap. p. 81-2.Google Scholar

  • Wells JCK. 2010. The evolutionary biology of human body fatness. Cambridge: University Press 92-117. Google Scholar

About the article

Published Online: 2013-02-20

Published in Print: 2012-01-01


Citation Information: Anthropological Review, ISSN (Online) 2083-4594, ISSN (Print) 1898-6773, DOI: https://doi.org/10.2478/v10044-012-0003-5.

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