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The Effects of Aerobic Exercise and Obese Education on the Insulin and Leptin in Obese Girls′ High School Students

유산소성 운동과 비만교육이 비만 여고생의 렙틴 및 인슐린에 미치는 영향

  • 이재규 (부경대학교 해양스포츠학과)
  • Published : 2002.12.01

Abstract

The purpose of this study was to determine changes in their insluin and leptin in 30 obese girls' high school students, 26kg/$m^2$ or over in BMI after the aerobic exercise and obese education program over 8 weeks and then those changes 8 weeks after the program. Those 30 obese students were divided into four groups, aerobir exercise and obese education(8), aerobic exercise(8), obese education(8) and control group(6). Aerobic exercise was applied in the form of jogging for 8 weeks, 4 times a week and 50 minutes a time and with the exercise strength of 65 to 75% HRmax. Obese education was provided 60 minutes per week over the same weeks. The results of the study can be described as follows. 1) For the level of insulin, aerobic exercise and obese education, and aerobic exercise groups showed a more significant decrease after the programs were completed than either before they were applied or 8 weeks after they were halted(p<.05). 2) In terms of the level of leptin, aerobic exercise and obese education, and aerobic groups accomplished a more significant lowering after the programs were completed than either before they were started or 8 weeks after they were stopped(p<.05).

본 연구는 BMI가 26kg/$m^2$ 이상인 비만여고생 30명을 대상으로 유산소 운동과 비만교육집단(8명), 유산소운동집단(8명), 비만교육집단(8명), 통제집단(6명)으로 나누어 8주 동안 유산소 운동과 비만교육 프로그램을 적용한 후와 프로그램 중단 8주 후의 신체조성, 인슐린, 렙틴, 혈청지질의 변화를 구명하기 위하여 유산소 운동은 8주 동안 조깅을 최대심박수의 65~75%의 운동강도로 매회 50분, 주당 4회씩 실시하였으며, 비만교육은 주1회, 60분 동안 실시하였다. 인슐린과 렙틴에서 유산소 운동과 비만교육집단, 유산소 운동집단에서 프로그램 전과 프로그램 중단 8주 후보다 프로그램 후가 낮게 나타났다. 이상의 결과에서 여고생들의 비만 관리를 위해서는 지속적으로 실천할 수 있는 운동프로그램의 개발이 시급한 실정이다.

Keywords

References

  1. Am. J. Med. Sci. v.298 Risk factors in early life as predictor of adult heart disease Berenson G. S.;S. R. Srinivasan;S. M. Hunter;T. A. Nicklas https://doi.org/10.1097/00000441-198909000-00001
  2. Int. J. Ob. v.21 The benefis of modest weight loss in type Ⅱ diabetes Bosello, O.;F. Amellini;M. Zamboni;M. Fitchet
  3. Phys. Med. Rehabil. v.1 Exercise training and severe caloric restriction : Effect on Lean Body Mass in the obesity Brian, C.;E. Randall;W. William;E. Vernon;R. Lionel
  4. Am. J. Obstet. Gynecol. v.182 Effects of pregnancy and exercise on concentration of the metabolic markets tumor necrosis factor alpha and leptin Clapp, J. F.;W. Kiess https://doi.org/10.1016/S0002-9378(00)70215-8
  5. Horm. Res. v.39 Therapeutic strategies in childhood obesity Diets, W.H. https://doi.org/10.1159/000182791
  6. The Am. Physi. Social. v.27 Invited editorial on acute and chronic effects of exercise on leptin levels in humans Ebeling, F.G.;R. V. Considine
  7. J. Appl. Physiol. v.79 Altered pulsatile insulin secretion associated with endurance training Engdahl, J.;J. D. Veldhuis;P. A. Farrell
  8. Horm. Metablic Res. v.30 Aerobic endurance exercise of circuit type resistance training for individual with impaired glucose tolerance Erikson, J.;J. Tuominen;T. Valle;S. Sundberg;A. Sovijarvi;H. Lindholm;J. Tuomilehto;V. Koivisto https://doi.org/10.1055/s-2007-978828
  9. Med. Sci. Sports Exerc. v.17 Plasma norepinephrin and dopamine β-hydroxylase activity during exercise in man Francois, P.
  10. Med. Sci. Sports. Exerc. v.3 Physical training, lifestyle education, and coronary risk factors in obese girls Gutin, B.;N. Cucuzzo;S. Islam;C. Smith;M. E. Stachura
  11. Diabetes. v.45 Leptin concentrations in diabetic and nondiabetic Mexican-Americans Haffner, S. M.;M. P. Stern;H. Miettinen;M. Wei;R. L. Gingerich https://doi.org/10.2337/diabetes.45.6.822
  12. J. Cardiac Rehabil. v.1 Fatigue of exercise to increase high density lipoprotein cholesterol John, K. F.;G. S. Skinar;J. H. Kuller;R. J. Robertson
  13. Clin Endocrin. v.36 Improvement in endocrine and ovarian Function during dietary treatment of obese women with polycystic ovary syndome Kobayashi;D. Hamilton;A. Bush;F. Short;V. Anyaoku;M. J. Reed;S. Franks https://doi.org/10.1111/j.1365-2265.1992.tb02909.x
  14. Int. J. Ob. v.21 Relationship between circulating leptin and peripheral fat distribution in obese subsects Lonngvist, F.;A. Wennlund;P. Amer https://doi.org/10.1038/sj.ijo.0800394
  15. Clin. Ewp. Pharmacol Physiol. v.26 Effects of mild aerobic exercise and a mild hypocaloric diet on plasma leptin in sedentary women Okazaki, T.;E. Himeno;H. Nanri;H. Ogata;M. Ikeda https://doi.org/10.1046/j.1440-1681.1999.03044.x
  16. Proc. Natl. Acad. Sci. v.96 Leptin inhibits insuline gene transcription and reverses hyperinsulinemia in leptin-deficient ob/ob mice Seufert, J.;T. J. Kieffer;J. F. Habener https://doi.org/10.1073/pnas.96.2.674
  17. International Handbook of Behaviro Nodification and Therapy(2th eds.) Wadden, T. A.;S. T. Bell;M. Hersen;A. E. Kazdin
  18. Int. J. Ob. v.20 Intra-abdolminal adipose tissue cut-points related to elevated cadiovascular risk in women Williams, M. J.;G. R. Hunter;T. Kekes-Szabo;M. S. Trueth;S. Snyder;L. Berland;T. Blaudean
  19. Nature. v.372 Positional cloning of the mouse obese gene and its human homologue Zhang, Y.;R. Proenca;M. Maffei;M. Barone;L. Leopold;J. M. Friedman https://doi.org/10.1038/372425a0