Biomolecules & Therapeutics

The Korean Society of Applied Pharmacology (한국응용약물학회)
권호 표지

The Effects of Combination of Functional Beverage(Garcinia Cambogia, L-Carnitine, and Soy Peptide) and Exercise on the Improvement of Body Fat

  • Kim, Kyung-Soo (Department of Family Medicine, The Catholic University of Korea) ;
  • Jung, Ju-Hae (Department of Family Medicine, The Catholic University of Korea) ;
  • Song, Chan-Hee (Department of Family Medicine, The Catholic University of Korea) ;
  • Sung, Bong-Ju (Korea Sports Science Institute)
  • Published : 2003.06.01
Download PDF
⟨ Previous Next ⟩

Abstract

Background: There is abundance of studies on the decrease in body fat through limited calorie intake or exercise; however, studies focusing simultaneously on functional foods and exercise are rare. This study was aimed to identify the effects of combination of a functional beverage and exercise on body composition and biochemical metabolic profiles. Method: Eighty-one healthy volunteers (69 females aged 19 to 50 years and 12 males aged 19 to 55 years), who maintained their body weight stable with 23 or higher in BMI (kg/$m^2$) and 25% or higher body fat for the last three months, were recruited in the study through written advertisement. All the subjects gave their informed consent, and the study was conducted in accordance with the Declaration of Helsinki. The study design was a randomized double-blind placebo-controlled parallel group design. All participants were given 12-week programed-exercise, which was performed 3 times a week. One bottle (100 ml) of test (Garcinia cambogia 300 mg, L-carnitine 20 mg, Soy peptide 1,000 mg) or placebo solution was given daily 30 min before each session of programed-exercise. BMI (body mass index), %fat, local fat amount (visceral and mid-thigh), waist circumference, skin fold thickness and some biochemical metabolic parameters like glucose, insulin and free fatty acids, etc in the blood were measured and compared before and after 12-week intervention within groups as well as between groups according to the protocol Results: Twenty six volunteers were dropped out and fifty five volunteers completed the study. At the end of 4, 8, and 12 weeks, approximately 1.98%, 3.00% and 3.50% losses of initial body weight were observed, respectively, in the test group (P<0.01), and 0.29, % ,0.74%, 1.60%, respectively, in the placebo group (P>0.05). BMI changed by 2.40%, 3.41% and 4.46%, respectively, in the test group, and 0.38%, 0.95% and 1.75%, respectively, in the placebo group, at each period of time. The reductions of body weight and BMI were significantly higher in the test group than in the placebo group at each period of time (P<0.05). Conclusions: It is thought that the combination of functional beverage, which contains mostly garcinia cambogia, L-carnitine, and soy peptide, and exercise have synergy effects on reducing body fat.

Keywords

References

  1. Yim Ye-sin, Jo Hyc-jin, Lee Gyu-hui, Park Hye-sun. (1999). The degree of patients suffering from obesity's adaptability to weight control and the results from long-term analysis. Journal of the Korean Society for the Study of Obesity. 8(2), 61-71
  2. Mun Ok-ryun, Kim Narn-sun, Jang Seon-rni, Yun Tac-ho, Kim Seong-ok. (1999). The relation between the body mass index and the prevalence rate of hypertension and diabetes mellitus. J. Korean Acad. Fam. Med., 20(6),771-786.
  3. Anderson, K. M., Castelli W. P., Levy D. (1987). Cholesterol and mortality: 30 years of follow up from the Framingham Study. JAMA, 257.2176-2180 https://doi.org/10.1001/jama.257.16.2176
  4. Allison, D. R., Park N., Sage, C. (1995). Handbook of Assessment Methods for Eating Behavior, and Weight-Related Problems : Methods, theory, and research. N. Enzl. J. Med., 333,1159 https://doi.org/10.1056/NEJM199510263331722
  5. Ministry of Health and Welfare (1998). 1998 Survey on National Health-Nutritions - Nutritional Survev Field
  6. The Asia-Pacific perspective: Redefining obesity and its treatment (2000). World Health Organization Western Pacific Region. International Association for the Study of Obesity. International Obesitv Task Force
  7. Skelton, N. K., Skeleton W. P. (1992). Medical implications of obesity. Postgrad. Med.. 92(1).151-162 https://doi.org/10.1080/00325481.1992.11701397
  8. Yim Mi-ja. (1998). Study on weight loss and changes in circulatory functions. The 9th Fall Academic Conference, Journal of the Korean Society lor the Study of Obesity, 45-58
  9. Ross, R, Leger L, Marliss E. B., Morris D. V., Geougeon, R. (1991). Adipose tissue distribution changes during rapid weight loss in obese adults. Int. J. Obes., 15, 733-738
  10. Mayo, M. J., Grantham, J. R., Balasekaran, G. (2003). ExerciseInduced Weight Loss Preferentially Reduces Abdominal Fat. Med. Sci. Sports Exercise, 35, 207-213 https://doi.org/10.1249/01.MSS.0000048636.46744.01
  11. Schulze, K., Gallagher P. Trappe S. (2002). Resistance training preserves skeletal muscle function during unloading in humans. Med. Sci. Sports Exercise, 34. 303-313 https://doi.org/10.1097/00005768-200202000-00019
  12. Keuning, WJM, Ratamess, N. A., Volek. J. S., McCormick M, Bush J. A. (2001), Resistance training combined with benchstep aerobics enhances women health profile. Med. Sci. Sports Exercise, 33, 259-269
  13. Treulth. M. S., Hunter. G. R., Kekes-Sazbo T, Weinsier, R. L., Goran, M. I., Berland, L. (1995). Reduction in intra-abdominal adipose tissue after strength training in older women. J. App. Physio., 87, 1415-1421
  14. Fujioka, S., Matsuzawa, Y., Tokunaga, K., Kawamoto, T, Kobatake T, Keno Y, Kotani K, Yoshida 5, Tarui S. (1991), Improvement of glucose and lipid metabolism associated with selective reduction of intra-abdominal visceral fat in premenopausal women with visceral fat obesity. Int. J. Obes., 15, 853-859
  15. Anh Yong-jun, Jang Gyeong-tae. (1999), The effects of dietary restramt and type of training on body composition and serum lipid. Journal otthe Korean Alliance for Health, Physical Education, Recreation, and Dane, 38(1), 264-276
  16. Stefanic, M. L. (1993). Exercise and weight control. Exercise and Sports Sciences Review, 21, 363-392
  17. Wadden, T. A., Van ltallie, T. B., Blackburn. G. L. (1990). Responsible and irresponsible use of very-low-calorie diets in the treatment of obesity. Journal of the American Medical Association, 263. 83-85 https://doi.org/10.1001/jama.263.1.83
  18. Seong Bong-ju (2000). The effects of detraining and restraining on body components, serum lipid, and hormone reaction of obese youth. Journal of the Korean Alliance for Health, Physical Education. Recreation, and Dance, 39(4), 507-520
  19. Guidelines for approval of the clinical trial plan including medicines, Korea Food & Drug Administration's notice #2002-6
  20. Kim Kyung Soo (2002). Clinical Trial Design and Ethics. J. Korean Acad. Fam. Med., 23(5). 573-582
  21. Borg. G. (1982). Psychophysical base of perceived exertion. Med. Sci. Sports. Exerc., 14. 377-381
  22. Jung Wuk-hyeong, Lee Hye-gyu, Yang Eun-yeong, Kim Hongbae, Nam Su-yeon (2001). The medical effects of the weisht control program(Xeni Club) on obese patients who take Xenical. Journal of the Korean Societyfor the Studv of Obesity 10 (3),251-252
  23. Lee Jong-ho, Jung Yang-su (2001). The effects of a functional beverage for treatment of obesity from CJ Corporation on the improvement in serum lipid and body. A report under contract with CJ Corporation, Yonsei University.
  24. Jena, B. S., .Jayuprakasha, G. K.. Singh, R. P., Sakariah, K. K. (2002). Chemistry and Biochenustry of (-)-Hydroxycitirc Acid from Garcinia. J. Agric. Food Chern, 50, 10-22 https://doi.org/10.1021/jf010753k
  25. Mcf.arty, M. F. (1994). Promotion of hepatic lipid oxidation and gluconeogenesis, a strategy for appetite control. Med. Hypotlieses, 42, 215-225 https://doi.org/10.1016/0306-9877(94)90120-1
  26. McCarty, M. F. (1995). Inhbition of citrate lyase may aid aerobic endurance. Med. Hypotheses, 45, 247-254 https://doi.org/10.1016/0306-9877(95)90113-2
  27. MeCarty, M. F. (1995). Optimizing exercise for fat loss, Med. Hypotheses, 44. 325-330 https://doi.org/10.1016/0306-9877(95)90258-9
  28. Saito. M. (1992). Effects of soy peptides on weiaht reduction in hypothalamic obese mice Nutr. Sci.Soy Protein, Jpn, 13, 50-52
  29. Saito. M. (1989). Availability of soy protein peptides for total enteral nutrition. Nutr. Sci. Soy Protein, Jpn, 10. 81-83
  30. Saito, M. Effects of soy protein peptide, on sympathetic nerve activity (1990). Nutr, Sci. Soy protein, Jpn, 11, 95-97
  31. Komatsu, T, Komatsu. K. Shiraishi, M, Nagata, M, Yamagishi. M. (1991). Effects of diet containing soybean peptide or lactalbumin on basal energy expenditure of obese children reduction body weight and on thermogenesis after meal. Nuti: Sci. Soy Protein Jpn, 12. 80-84
  32. Komatsu, T., Komatsu. K., Yamagishi, M. (1992). Effects of soy peptide consumption on diet induce thermogenesisl. Nutr. Sci. Soy Protein Jpn, 13, 53-58
  33. Sullivan, A. C., Triscari, J., Hamilton, J. G., Miller, O. N., Wheatley, V. R. (1974) Effect of (-)-hydroycitrate upon the accumulation of lipid in rat. I. Lipogenesis. Lipids 9, 121-128