Estimation of Dietary Choline Intake of Korean by Gender, Age and Region

한국인의 성별, 연령별, 지역별 콜린 섭취 추정량

  • Jeone Han Ok (Department of Food and Nutrition, Chungnam National University) ;
  • Kim Cho-il (Nutrition Research Team, Korea Health Industry Development Institute) ;
  • Lee Haene Shin (Nutrition Research Team, Korea Health Industry Development Institute) ;
  • Chune Young-Jin (Department of Food and Nutrition, Chungnam National University)
  • 정한옥 (충남대학교 생활과학대학 식품영양학과) ;
  • 김초일 (한국보건산업진흥원 보건영양팀) ;
  • 이행신 (한국보건산업진흥원 보건영양팀) ;
  • 정영진 (충남대학교 생활과학대학 식품영양학과)
  • Published : 2005.05.01

Abstract

This study was conducted to estimate dietary choline intake of Koreans according to gender, age and region by using the data on per capita food intake in 1998 and 2001 and the data on choline contents of foods customarily eaten by Koreans. Sixty-four and 97 kinds of food items were used for the estimation of choline intake in 1998 and 2001, respectively. And these corresponded to approximately $90\%$ of the total amount of food intake and energy intake. Based on these food items and choline content, per capita choline intake of Koreans was estimated to be 623.0 mg and 602.4 mg in 1998 and 2001 respectively , 687.2 mg and 659.1 mg in 1998 and 2001 for male, 560.2 mg and 551.0 mg in 1998 and 2001 for female. While the number of foods considered in estimation was higher in 2001 than 1998, choline intake was lower in 2001. The estimated per capita choline intake of male population was higher than that of female population by 108-127 mg, possibly due to the difference in total amount of food intake. The age group with the highest choline intake was different between 2 time points. Although adolescents of 13- 19 years showed the highest intake (712.0 mg) in 1998, mid-aged adults of 30-49 years showed the highest choline intake (662.2 mg) followed by adolescents (645.7 mg) in 2001. In regional comparison, choline intake of the rural population (588.7 mg and 588.3 mg in 1998 and 2001 respectively) was lower than that of population in small to medium-size cities (625.1 mg and 603.9 mg) or in metropolitan cities (637.7 mg and 602.8 mg). This result revealed that per capita choline intake of the Korean population falls within the adequate range with some differences by age, sex and residing area.

Keywords

References

  1. Zeisel SH. Dietary choline. biochemistry, physiology, and pharmacology. Annu Rev Nutr 1 :95-121, 1981 https://doi.org/10.1146/annurev.nu.01.070181.000523
  2. Zeisel SH. Diet and brain function. available information and misinformation, Pediatric nutrition, Boston, Butterworths, 801-808, 1987
  3. Zeisel SH. Biological consequences metabolism and brain function, New York, Raven press, pp.75-99, 1990
  4. Zeisel SH, da Costa KA, Franklin PD, Alexander EA, Lamont JT, Sheard NF, Beiser A. Choline, an essential nutrient for humans. FASEB J 5: 2093-2098, 1991
  5. Zeisel SH. Choline, an important nutrient in brain development, liver function and carcinogenesis. J Am Coil Nutr 11: 473-481, 1992
  6. Zeisel SH. Choline and human nutrition. Annu Rev Nutr 14: 269-296, 1994 https://doi.org/10.1146/annurev.nu.14.070194.001413
  7. Allison AY, Sandra AS, Schlicker CW, Suitor S. Dietary Reference intakes, The new basis for recommendations for calcium and related nutrients, B vitamins, and choline, J Am Diet Assoc 98(6): 699-706, 1998 https://doi.org/10.1016/S0002-8223(98)00160-6
  8. Nutrient reference values for Australia and New Zealand including recommended dietary intake. Commonwealth of Australia and New Zealand government, 2005
  9. Zeisel SH. Choline: An essential nutrient for humans. Nutrition 16: 669-671,2000 https://doi.org/10.1016/S0899-9007(00)00349-X
  10. Zeisel SH, Mar MH, Howe JC, Holden JM. Concentrations of choline-eontaining compounds and betaine in common foods. J Nutr 133: 1302-1307, 2003
  11. Howe JC, Williams JR, Holden JM, Zeisel SH, Mar MH. USDA database for the choline content of common foods. 2004
  12. Shaw GM, Carmichael SL, Yang W, Selvin S, Schaffer DM. Periconceptional dietary intake of choline and betaine and neural tube defects in offspring. Am J EpidemioI 160(2): 102-109, 2004 https://doi.org/10.1093/aje/kwh187
  13. Busby MG, Fischer L, da Costa KA, Thompson D, Mar MH, Zeisel SH. Choline- and betaine-defined diets for use in clinical research and for the management of trimethylarninuria. J Am Diet Assoc 104: 1836-1845, 2004 https://doi.org/10.1016/j.jada.2004.09.027
  14. Iyengar GV, Wolf WR, Tanner JT, Morris ER. Content of minor and trace elements, and organic nutrients in representative mixed total diet composites from the USA. The Science of the Total Environment 256: 215-226, 2000 https://doi.org/10.1016/S0048-9697(00)00494-0
  15. Ysart G, Miller P, Crews H, Robb P, Baxter M, De L'Argy C, Lofthouse S, Sargent C, Harrison N. Dietary exposure estimates of 30 elements from the UK total diet study. Food Additives and Contaminants 16(9): 391-403, 1999 https://doi.org/10.1080/026520399283876
  16. Chung YJ. A study of dietary choline intake in Korean adults and choline content of some Korean common foods. Ministry of Health and Welfare, 2004
  17. Chung YJ, Cho HJ, Na JS. Dietary choline intake of Korean young adults. Korean J Nutr 37 (1) : 61-67, 2004
  18. Korea health industry development institute. Dietary intake and risk assessment of contaminants in Korean foods. KFDA, 2002
  19. Korea health industry development institute. Dietary intake and risk assessment of contaminants in Korean foods. KFDA, 2003
  20. Food composition table, 6th revision. National Rural Living Science Institute, Rural Developenent Ad-minstration, 2001
  21. Ministry of Health and Welfare. Report on 1998 National Health and Nutrition Survey, 1999
  22. Ministry of Health and Welfare. Report on 2001 National Health and Nutrition Survey, 2002