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Comparison of Aerobic and Anaerobic Capacity between Sasang Consititutions and ACE Gene Polymorphismn

사상체질과 ACE 유전자 다형성 분류에 따른 유·무산소성 능력비교

  • Seck, Dong-Sun (Department of Adapted exercise prescription, Kookmin University) ;
  • Park, Kyu-Jung (Department of Adapted socity physical education, Songwon University)
  • 석동선 (국민대학교 운동처방학과) ;
  • 박규정 (송원대학교 사회체육학과)
  • Received : 2015.03.20
  • Accepted : 2015.04.03
  • Published : 2015.06.30

Abstract

Purpose. This study of purpose was to to compare of Aerobic and Anaerobic Capacity between Sasang Constitutions and ACE Gene Polymorphism. Methods. 24 healthy males were participated in this experiment who were in their twenties and had no disease, then they were divided by ACE type and by Sasang constitutions with QSCC II. According to these group, the body compositon, Aerobic capacity including VO2max, Anaerobic Capacity were measured. Results. In this study, According to ACE type, ID type were 8, II were 8 and DD type were 8 persons. According to ACE type, there were significant difference among type, especially, II, ID type more than DD. II type is more higher than any type and DD type is lower in the ratio of Blood Lactic recovery. DD type was more excellent than other type in Anaerobic power. According to Sasang Constitutions, there were 8 SoYang, 5 Taeum, 11 Soeum and then no TaeYang constitution. In Aerobic capacity, Taeum constitution had significantly high means and Anaerobic threshold. In the ratio of Blood lactic recovery, Taeum constitution was excellent and SoYang had poor recovery capacity. SoYang had more excellent than other constitution significantly in Anaerobic capacity. Comparing ACE type with Sasang constitution, Soyang constitution included 4 ID types, Taeum inclued 2 II types and 2 ID types then Soeum included 6 DD types. Compared of Aerobic and Anaerobic capacity between Sasang constitutions and ACE type, Soyang constitutions were similar to ID type, Taeum similar to II type and ID type and then Soeum were DD type. Conclusions. This study had made it clear that there were similar feature between ACE type and Sasang constitutions. Also it's possible to predict the Aerobic capacity that may be foreseen by ACE type with Sasang questionnaire method but not Anaerobic capacity.

Keywords

References

  1. Sunho,Kim. Standardization research of questionnaire of sasang constitution classification. Kyunghee University educational graduate school, 1996.
  2. Hwichul,Lee. By DNA analysis method historically research on hereditarian distance between Sasang Constitutions. Kwonkook University educational graduate school, 1999.
  3. Bonne-Tamir, B., M. J. Johnson, A. Natali, D. C. Wallace., & L. L. Cavalli-Sforza.. Human mitochondrial DNA types in two Israeli populations. A comparative study at the DNA level. Am. J. Hum. Genet,1986;. 38:341-351.
  4. Cavalli-Sforza, L. L., & A. W. F. Edwards. Analysis of human evolution ; in proc. 11th Int. Congr. Genet.,1964; 923-933.
  5. Nei, M., & A. K. Roychoudhury. Genetic relation-ship and evolution of human races. Evol. Biol, 1982; 14:1-59.
  6. Bar,O. Anaerobic capacity test : characteristics and application, proceeding of 21st world congress in sports medicine, brasilia,1978.
  7. Jaeho,Gil, Hyun,Park, Bongkyu,Cha. Cardiorespiratory endurance by ACE gene type. Journal of Exercise Nutrition, 2002;6(2), 77-84.
  8. Jae-ho ,Kim. Relationships among Sasang, Constitution, Cardiopulmonary Endurance and Angiotensin Converting Enzyme Polymorphism in Athletes. Journal of Sasang Constitutional Medicine, 2004;10(2), 283-290.
  9. Malik, F.S., Lavie, C. J., Mehra, M. R., Milani, R. V., & Re, R. N. Renin-Angiotensin system: genes to bedside American Heart Journal, 1997; 134(3):514-526. https://doi.org/10.1016/S0002-8703(97)70089-9
  10. Nakai. K., Fusazaki, T., Xhang, T., Shiroto, T., Osawa, M., Kamata, J., Itoh, M., Nakai. K., Habano, W., Kiuchi, T., Yamamori, S., & Hiramori, K. Polymorphism of the apolipoprotein E and angiotensin I converting enzyme genes in Japanese patients with myocardial infarction. Coronary artery disease. 1998;. 9(6):329-334. https://doi.org/10.1097/00019501-199809060-00002
  11. Vleming, L. J., Van Der Pijl., J W., Lemkes, H. H., Westendorp, R. G., Maassen, J. A., Daha, M. R., van Es, L. A., & van Kooten, C.The DD genotype of the ACE gene polymorphism is associated with progression of diabetic nephropathy to end stage renal failure in IDDM. Clinical Nephrology,1999; 51(3):133-140.
  12. Jungsoo,Han. Correlation between ACE Genotype and Cardiopulmonary Endurance by Sasang Constitution Styles in Korean Middle-aged Women.Journal of Oriental Rehabilitation Medicine), 2002;2(2): 241-255.
  13. Montgomery HE, Marshall R, Hemingway H, Myerson S, Clarkson P, Dollery C, Hayward M, Holliman DE, Jubb M, World M, Thomas EL, Brynes AE, Saeed N, Barnard M, Bell JD, Prasad K, Rayson M, Talmud PJ., & Humphries SE. Human gene for physical performance.Nature,1998; 21;393(6682):221-2.
  14. Alvarez, R., Terrados, N., Ortolano, R., Iglesias-Cubero, G., Reguero, J. R., Batalla, A., Cortina, A., Fernandez-Garcia, B., Rodriguesz, C., Braga, S., Alvarez, V & Coto, E.Genetic variation in t he renin-angiotensin system and athletic performance. European J. Appl Physiol, 2000; 82(1-2):117-120. https://doi.org/10.1007/s004210050660
  15. Myerson, S., Hemingway, H., Budget, R., Martin, J., Humphries., S & Montgomery, H. Human angiotensin I-converting enzyme gene and endureance performance. Journal of applied physiology,1999; 87(4): 1313-1316.
  16. Nagashima, J., Musha, H., Takata, H., Awaya, T., Oba, H., Mori, N., Ohmiya, K., Nobuoka, S. & Murayama, M.. Influeence of angiotensin-converting enzyme gene polymorphism on development of athlete's heart. Clinical Cardiology,2000; 23(8):621-624. https://doi.org/10.1002/clc.4960230814
  17. Myerson, S. G., Montgomery, H. E., Whittingham, M., Jubb, M., Wrold, M. J., Humphries, S. E., & Pennell, D. J. Left ventricular hypertrophy with Exercise and ACE gene insertion/Deletion Polymorphism : A Randomized Controlled trial with losartan. Circulation, 2001; 103(2): 226-230. https://doi.org/10.1161/01.CIR.103.2.226
  18. Hubacek, J. A., Pitha, J., Podrapska, I., Sochman, J., Adamkova, V., Lanska, V., & Poledne, R. Insertion/deletion polymorphism in the angiotensin-converting enzyme gene in myocardial infarction survivors. Medical science monitor,2000; 6(3): 503-506.
  19. Rankinen, T., Wolfarth, B., Simoneau, J. A., Maier-Nenz, D., Rauramaa, R, Rivera, M. A., Boulay, M. R., Chagnon, Y. C., Perusse, L., Keul, J., & Bouchard, C. No association between the angiotensin- converting enzyme ID polymorphism and elite endurance athlete status. Journal of applied physiology,2000; 88(5):1571-1575. https://doi.org/10.1152/jappl.2000.88.5.1571
  20. Ilbyung,Song.Present condition about objective research of sasang constitution diagnostic and view. Journal of Sasang constitutional medicine, 1998;10(1), 1-9.
  21. Yohgeo,Choi, Bokjoo,Kim, JaeKeun,Oh, JiYoun, Han. The 2000 Seoul International Sport Science Congress. The Korean Alliance for Health,Physical Education,2000; 2(1), 696-706 .
  22. Sungyong,Kim.Comparative study of physique, cardiopulmonary function and physical fitness level in Sasang constitution styles, Dongkook University educational graduate school, 1999.
  23. Han,Chae. The psychological, physical and genetic traits of Sasang typology, Kyunghee University educational graduate school,2003.
  24. Injung,Kang.Constitutional Mannual. Book concern nexus,1998.