한국식생활문화학회지 (Journal of the Korean Society of Food Culture)

  • 제24권6호
  • /
  • Pages.588-596
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  • 2009
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  • 1225-7060(pISSN)
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  • 2288-7148(eISSN)
한국식생활문화학회 (Korean Society of Food Culture)
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대전시 일부 폐경 후 여성의 두류 및 식이 이소플라본 섭취와 골다공증간의 관계 연구

Relationships between Intakes of Soybean Food, Dietary Isoflavone and Osteoporosis Incidence among Postmenopausal Women in Daejeon City

  • 우순선 (공주대학교 교육대학원 가정교육) ;
  • 김선효 (공주대학교 자연과학대학 외식상품학과)
  • Woo, Soon-Sun (Department of Home Economics Education, Graduate School of Education, Kongju National University) ;
  • Kim, Sun-Hyo (Department of Foodservice Management and Nutrition, College of Natural Science, Kongju National University)
  • 발행 : 2009.12.31
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초록

To determine the relationships between soybean food intake, dietary isoflavone intake, and osteoporosis incidence, questionnaire surveys, bone mineral density measurements, and dietary surveys by food record were performed with 19 postmenopausal women ($57.6{\pm}7.3$ yrs of age) in Daejeon city. The subjects were divided into two groups: an 'osteoporosis group' (OG, n=10) and a 'normal group' (NG, n=9). Mean age, height, and body weight were similar between the two groups but BMI was higher in OG than in NG. Mean age at menarche was not different between the two groups. However, mean number of childbirths was greater in OG than in NG and mean total period of lactation was shorter in OG. Mean exercise time per week was similar between the two groups, and mean time of sunlight exposure tended to be shorter in OG. Mean daily intake of calcium was lower in OG whereas sodium intake was higher in OG. Mean daily intakes of total soybean food (OG: $203.8{\pm}84.6\;g/d$, NG: $285.0{\pm}146.3\;g/d$) and total dietary isoflavone (OG: $29.1{\pm}14.3\;mg/d$, NG: $38.3{\pm}23.1\;mg/d$) were not different between the two groups. However, greater intakes of soybean food and dietary isoflavone were associated with higher bone mineral density, respectively. The above results indicate that osteoporosis incidence tends to be influenced by BMI, maternal factors, dietary nutrient intakes, soybean food intakes, and dietary isoflavone intakes in postmenopausal women; although no significant differences in soybean food and dietary isoflavone intake were found between the two groups. This tendency implies that greater intakes of soybean food and dietary isoflavone lead to lower incidence of osteoporosis in postmenopausal women.

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참고문헌

  1. Baek SK, Sung CJ. 2003. A study of soy isoflavone supplementation effects on bone mineral density and bone metabolism markers in female college students with low bone mass. Korean J. Nutr., 36(2):154-166
  2. Borer KT. 2005. Physically activity in the prevention and amelioration of osteoporosis in women: interaction of mechanical, hormonal and dietary factors. Sports Med., 35(9):779-830 https://doi.org/10.2165/00007256-200535090-00004
  3. Chang MJ, Kwon KJ, Kim SH. 2005. Calcium and phosphorus balance study by soy isoflavone intake in ovaritectomized rats. Korean J. Nutr., 38(1):40-47
  4. Cho SH, Cho SH, Hwang YY, Lee JA, Choi YY, Cho SS. 1999. Prevalence of osteoporosis based on bone density measurement in Korean women. Korean J. of Obstetics and Gynecology, 42(4):821-825
  5. Kim HM, Han IK, Cho NH. 1998. The effect of parity on bone metabolism in Korean women: a cross-sectional study. Journal of the Korean Society of Menopause, 4(1):16-25
  6. Kim JS. 2001. Estimated dietary isoflavone intake of Korean population based on national survey. Nutr. Res., 21:947-953 https://doi.org/10.1016/S0271-5317(01)00310-4
  7. Kim SH, Lee OH, Lee HS, Cho JY. 2008. Nutrition and Exercise. Powerbook
  8. Kim WY. 1994. Osteoporosis and dietary factors. Spring Proceedings of Korean Nutrition Society. pp 636-645
  9. Kim WY, Kim MK, Wang SK, Chang NS, Shin DS, Jeong HK, Yoon KA, Jang MJ, Kim YH, Kim HY, Yang EJ, Kim WK, Lee HS. 2005. Nutrition and Health. Kyomoonsa
  10. Korean Nutrition Society. 2005. Dietary Reference Intakes for Koreans
  11. Korean Nutrition Society. 2004. CAN Pro 2.0.
  12. Lee DH, Sung JC. 2003. Effect of soy isoflavone supplementation on bone metabolism marker and urinary mineral excretion in postmenopausal women. Korean J. Nutr., 36(5):476-482
  13. Lee MJ, Sohn CY, Kim JH. 2008. Relation between examination outcome and intake of soy food and isoflavone among adult male in Seoul. Korean J. Nutr., 41(3):254-263
  14. Lee YS, Kim SH, Chyun JH, Lee SS. 2004. New paradigm for dietary reference intakes: dietary reference intakes of Unites Sates and Canada- focused on the nutrient related to growth and maintenance of bone- Ca, P, vitamin D, Mg, F. Korean J. Nutr., 37(8):732-738
  15. Lee YS, Lim HS, Ahn HS, Chang NS. 2006. Nutrition through the Life Cycle. Kyomoonsa
  16. Lim HJ. 2001. A study on the calcium and sodium intakes and urinary calcium excretion of preschool children in Busan. Korean J. Nutr., 34(7):786-796
  17. Maskarinec G, Singh S, Meng L, Franke, AA. 1998. Dietary soy intake and urinary isoflavone excretion among women from a multiethnic population. Cancer Epidemiol. Biomarkers Prev., 7:613-619
  18. Meang WJ, Hong HO, Song BC. 2000. Nutrition and Health in Modern Society. Konkuk University Press
  19. Messina M. 1998. Soyfoods, soybean isoflavones, and bone health. Korea Soybean Digest., 15(2):122-136
  20. Oh SR, Kang WW, Choi SW, Kim MK, Park SJ, Shin EW, Lee SH, Chang JO. 2005. Food Chemistry. Bomoongak
  21. Park HS, Kim MC, Choi JH, Kim TH, Hong IP. 1995. Women's recognition about postmenopausal osteoporosis. Korean Journal of Family Medicine, 16(5):298-306
  22. Recker, RR, Davies, KM, Hinders, SM, Heaney, RP, Stegman, MR, Kimmel, DB. 1992. Bone gain in young adult women. J. A. M. A., 268(17):2403-2408 https://doi.org/10.1001/jama.268.17.2403
  23. WHO study group. 1994. Assessment of fracture risk and its application to screening for postmenopausal osteoporosis. WHO Technical Report Series, Geneva, Switzerland. p 843
  24. www.ktv. go. kr. 2008. 5. 21. 한국인 평균 수명 78.5세, 공동 23위