생명과학회지 (Journal of Life Science)

  • 제19권1호
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  • Pages.111-116
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  • 2009
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  • 1225-9918(pISSN)
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  • 2287-3406(eISSN)
한국생명과학회 (Korean Society of Life Science)
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줄넘기와 스위스볼 운동이 취학 전 유아의 골형성 지표에 미치는 영향

The Effects of Rope Jumping and Swiss Ball Exercise on Young Children's Bone Formation Markers

  • Kim, Tae-Un (Department of Physical Education, Pusan National University) ;
  • Lee, Kyung-Hee (Department of Physical Education, Pusan National University) ;
  • Jeon, Jae-Young (Department of Physical Education, Pusan National University) ;
  • Jeong, Seong-In (Department of Physical Education, Pusan National University)
  • 발행 : 2009.01.30
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초록

취학 전 유아를 대상으로 12주간 줄넘기운동과 스위스 볼 운동을 병행한 운동 프로그램을 실시한 결과 결론은 다음과 같다. 신체조성의 변화 각 집단 내 운동 효과에 대한 신체조성의 변화에서 운동군과 대조군 모두 산장, 체중, 체지방량 및 체지방률이 모두 유의하게 증가하였다. 시기에 따른 집단 간 상호작용 효과는 나타나지 않았다. 오스테오칼신 각 집단 내 운동 효과에 대한 오스테오칼신의 변화에서 운동군은 남아, 여아 모두 유의성이 나타나지 않았고, 대조군은 여아의 경우만 유의하게 감소하였다. 시기에 따른 집단 간 상호작용효과도 나타나지 않았다. 알카리성 포스파타제 각 집단 내 운동효과에 대한 알카리성 포스파타제의 변화에서 운동군과 대조군 모두 유의한 차이가 나타나지 않았다. 시기에 따른 집단 간 상호작용효과는 있는 것으로 나타났다. 이상의 연구결과에서 줄넘기 및 스위스 볼 운동이 취학전 유아의 시기에 따른 집단간 상호작용효과는 나타내지 못했지만 집단 내 변화에서 대조군 보다 긍정적인 변화를 나타내었으며, 알카리성 포스파타제의 변인에서 상호작용 효과가 나타나 골량의 형성기인 유아들에게 줄넘기 및 스위스 볼 운동의 적용이 발율 향상과 골 건강 증진에 긍정적인 변화를 나타내었다. 하지만 오스테오칼신 농도의 연화에는 영향을 미치지 못하였다. 따라서, 향후 운동강도와 운동기간 등을 고려한 연구가 요구된다.

The purpose of this study was to elucidate the effects of 12 weeks rope jumping and Swiss ball exercise (55 to 75% HRR: 3 times a week) on body composition and bone formation markers in young children. Forty eight participants were divided into two groups, the exercise group (n=24) and the control group (n=24). All items were assesed before and after exercise program. The results of this study are as follows; 1. Body composition: In the comparison of mean changes before and after exercise program execution on body composition within each group, the exercise group showed significant increases in height, weight, fat mass and %fat. The control group showed significant increases in all items. The interaction effect between groups and time didn't appear a significant difference. 2. Osteocalcin: In the comparison of mean changes before and after exercise program execution in osteocalcin within each group, the exercise group didn't appear a significant change and the control group were significantly decreased in girl children. The interaction effect between groups and time didn't appear a significant difference. 3. Alkaline phosphatase: In the comparison of mean changes before and after exercise program in Alkaline phosphatase within each group didn't appear a significant difference in exercise group and control group. The interaction effect between groups and time showed a significant difference. In conclusion, for young children in the stage of the formation of bone mineral contents, rope jumping and Swiss ball exercise are postive effect in promoting their growth and bone health, but osteocalcin concentration did not changes. Thus, further research is required to consider intensity and duration of exercise on bone formation markers of young children's.

키워드

참고문헌

  1. Boss, S. L. 2000. The prepubertal years: A uniquely opportune stage of growth when the skeleton is most responsive to exercise? Sports Medicine 30, 73-78 https://doi.org/10.2165/00007256-200030020-00001
  2. Choi, J. H., J. H. Yang and W. I. Park. 2006. Effects of Pilates Matwork Method on Health-Related Fitness and Muscular Band System in the Middle-Aged Women's. The Korean Journal of Physical Edication 45, 515-526
  3. Consitt, L. A., J. L. Copeland and M. S. Tremblay. 2002. Endogenous Anabolic Hormone Responses to Endurance Verus Resistance Exercise and Training in Women. Sport Med. 32, 1-22 https://doi.org/10.2165/00007256-200232010-00001
  4. Delmas, P. D. 1995. Biological markers of bone metabolism. Press Med. 22, 263-268
  5. Foley, S., S. Quinn, T. Dwyer, A. Venn and G. Jones. 2008. Measures of Childhood Fitness and Body Mass Index are Associated with Bone Mass in Adulthood: A 20 Year Prospective Study. J. Bone Miner. Res. 26
  6. Frost, H. M. 1987. Bone 'mass' and the 'mechanostat': Aproposal. Anat. Rec., 219, 1-9 https://doi.org/10.1002/ar.1092190104
  7. Gordon, S. E., W. J. Kraemer, N. H. Vos, J. M. Lynch and H. G. Knuttren. 1994. Effect of acid-base balance on the growth hormone response to acute high-intensity cycle exercise. J. Appl. Physiol. 76, 821-829 https://doi.org/10.1519/JSC.0b013e3181ddb265
  8. Harold, M. F. 2001. From Wolff's Law to the Utah Paradigm: Insights About Bone Physiology and It's Clinical Applications. The anatomical record 262, 398-419 https://doi.org/10.1002/ar.1049
  9. Hanen, M. A., K. R. Overgaard, B. J. Riis and C. Christiansen. 1991. Role of peak bone mass and bone loss in postmenopausal osteoporosis: 12 year study. Br. Med. J. 303, 961-964 https://doi.org/10.1136/bmj.303.6808.961
  10. Jang, S, D., M. Y. Hong, S. J. Moon, J. H. Kim and Y. J. Kim. 2004. The effect of 10km running for a long term on the bone metabolism. The Korean Journal of Physical Edication 43, 559-565
  11. Kim, D. H., D. S. Kim, H. Y. Lee, H. W. Kim, S. H. Shin, S. W. Jang and K. Y. Baek. 2008. The effects of aerobic and resistance exercise on body composition, height development, and biochemical bone markers of elementary male students. Korean Society of exercise Physiology 17, 59-68
  12. Kim, J. S., M. H. Kim and J. S. Sin. 2004. Effects of Weight-Bearing Exercise on Bone Metabolism in College Women. J. Korean Acad. Nurs. 34, 760-770
  13. Kodama, Y., Y. Umemura, S. Nagasawa., W. G. Beamer, L. R. Donahue, C. R. Rosen D. J. Baylink and J. R. Farley. 2000. Exercise and mechanical loading increase periosteal bone formation and whole bone strength in C57BL/6J mice but not in C3H mice. Calcif. Tissue Int. 66, 298-306 https://doi.org/10.1007/s002230010060
  14. Malina, R. M., C. Bouchard and O. Bar-Or. 2004. Growth, Maturation, and Physical Activity Human Kinetics
  15. McKelvie, K. J., K. M. Khan, M. A. Petit, P. A. Janssen and H. A. MacKay. 2003. A school-based exercise intervention elicits substantial bone health benefits: a 2-year randomized controlled trial in girls. Journal of Pediatric 112, 447 https://doi.org/10.1542/peds.112.2.447
  16. Merle, L., J. Steven and Keteyian. 1998. Fox's Physiological Basis for Exercise and sport, 6th eds. The McGraw-Hill Companies, Inc.
  17. Mundy, G. R. 1999. Bone Remodeling In Favuc M. J. (Ed). Primer on the Metabolic Bone Diseases and Disorders of Mineral Metabolism. 30-38, Lippincott Williams and Wilkins
  18. Ott, S. M. 1990. Attainment of peak bone mass (Editorial). J. Clinol. Metab. 71, 1082
  19. Park, J. N., K. G. Kim and S. H. Lee. 2004. A Study of Factors Affecting Bone Mineral Density in Children: Anthropometric Measurements, Socioeconomic Factors, Family History, and Other Environmental Factors. Department of Food and Nutrition 37, 52-60
  20. Pocock, N., J. Eisman and T. Gwinn. 1989. Muscle strength, physical fitness and weight but no age predict femoral neck bone mass. J. Bone Miner. Res. 4, 441-448 https://doi.org/10.1002/jbmr.5650040320
  21. Rauchenzauner, M., A. Schmid. E. P. Heinz, K. Kapelari, G. Falkensammer, A. Griesmacher, G. Finkenstedt and W. Hogler. 2007. Sex-and Age-Specific Reference Curves for Serum Markers of Bone Turnover in Healthy Children from 2 months to 18 years. J. Clin. End. Met. 92, 443-449 https://doi.org/10.1210/jc.2006-1706
  22. Recker, R. R., K. M. Davies, S. M. Hinders, R. P. Heaney, M. R. Stegman and D. B. Kimmei. 1992. Bone gain in young adult women. JAMA 268, 2403-2408 https://doi.org/10.1001/jama.268.17.2403
  23. Seibel, M, J., R. Eastell, C. M. Cundberg, R. Hannon and H. A. P. Pols. 2002. Biochemical markers of bone metabolism. Principles of Bone Biology 2, 1543-1571 https://doi.org/10.1016/B978-012098652-1/50192-X
  24. Smith, M. Z., B. M. Goettsch, R. D. Van Ramshorst, J. A. O'brien, S. V. Jaque and K. D. Sumida. 2007. Resistance Training and Bone Mineral Density during Growth. Int. J. Sports Med. 18
  25. Soriguer, F. J., A. L. Esteva, F. J. Tinahone and A. Parej. 1996. Adipose tissue fatty acids and size and number of fat cells from birth to 9 tears of age-a cross-sectional study in 96 boys. Metabolism 45, 1395-1401 https://doi.org/10.1016/S0026-0495(96)90121-3
  26. Stephen, J. V. 2005. Active start for healthy kids. pp. 104-108. The information leader in physical activity, Champaign, IL: Human Kinetics