Abstract
Objective: To measure folate content in cooked foods commonly consumed in Korea for evaluating its relation to folate nutriture of college students.
Design: Folate content in 32 raw and cooked foods was measured by microbiological assay after trienzyme extraction. These values and the previously published values of 110 raw foods commonly consumed in Korea were used to update the currently available food tables to estimate dietary folate intake of 106 students based on a 3-day 24-h recall. The association of folate intake with blood folate and homocysteine concentrations was evaluated.
Setting: Cheongju, Korea.
Subjects: Healthy college students aged 18 to 27 y old (44 males and 62 females).
Results: The average folate loss in 32 foods caused by cooking was 29%. The mean daily dietary folate intakes estimated with an updated database were 406 and 305 μg in males and females, respectively. About 10% of both male and female students showed low serum folate (<6.8 nmol/l). Folate intake was positively correlated with serum and erythrocyte folate concentrations in female students (r=0.27 and 0.29, respectively, P<0.05), and negatively correlated with serum homocysteine in male students (r=−0.41, P<0.05).
Conclusions: Mean dietary folate intake was higher than those of previous studies since the database was updated using values obtained with trienzyme extraction. Folate intake for the general population should be re-evaluated using reliable food folate values obtained with trienzyme extraction.
Sponsorship: Chungbuk National University.
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References
Ahn HS, Jeong EY & Kim SY (2002): Studies on plasma homocysteine concentration and mutritional status of vitamin B6, B12 and folate in college women. Korean J. Nutr. 35, 37–44. (in Korean).
Alfthan G, Laurinen MS, Valsta LM, Pastinen T & Aro A (2003): Folate intake, plasma folate and homocysteine status in a random Finnish population. Eur. J. Clin. Nutr. 57, 81–88.
Ball GFM (1998): Folate. In Bioavailability and Analysis of Vitamins in Foods, pp 439–496. London: Chapman & Hall.
Banerjee DK & Chatterjea JB (1964): Folic acid activity of Indian dietary articles and the effect of cooking on it. Food Technol. 18, 1081–1083.
Bates CJ, Mansoor MA, van der Pols J, Prentice A, Cole TJ & Finch S (1997): Plasma total homocysteine in a representative sample of 972 British men and women aged 65 and over. Eur. J. Clin. Nutr. 51, 691–697.
Bronstrup A, Hages M, Prinz-Langenohl R & Pietrzik K (1998): Effects of folic acid and combinations of folic acid and vitamin B-12 on plasma homocysteine concentrations in healthy, young women. Am. J. Clin. Nutr. 68, 1104–1110.
Chen T-S, Song Y-O & Kirsch AJ (1983): Effects of blanching, freezing and storage on folacin contents of spinach. Nutr. Rep. Int. 28, 317–324.
Choumenkovitch SF, Jacques PF, Nadeau MR, Wilson PWF, Rosenberg IH & Selhub J (2001): Folic acid fortification increases red blood cell folate concentrations in the Framingham Study. J. Nutr. 131, 3277–3280.
Dang J, Arcot J & Shrestha A (2000): Folate retention in selected processed legumes. Food Chem. 68, 295–298.
de Bree A, van Dusseldorp M, Brouwer IA, van het Hof KH & Steegers-Theunissen RP (1997): Folate intake in Europe: recommended, actual and desired intake. Eur. J. Clin. Nutr. 51, 643–660.
de Bree A, Verschuren WMM, Blom HJ & Kromhout D (2001): Association between B vitamin intake and plasma homocysteine concentration in the general Dutch population aged 20–65 y. Am. J. Clin. Nutr. 73, 1027–1033.
De Souza S & Eitenmiller RR (1986): Effects of processing and storage on the folate content of spinach and broccoli. J. Food Sci. 51, 626–628.
De Souza S & Eitenmiller R (1990): Effects of different enzyme treatments on extraction for total folate from various foods prior to microbiological assay and radioassay. J. Micronutr. Anal. 7, 37–57.
Eichner ER & Hillman RS (1973): Effect of alcohol on serum folate level. J.Clin. Invest. 52, 584–591.
Eitenmiller RR (1998): Folate. In Vitamin Analyses for the Health and Food Sciences, eds. RR Eitenmiller & WO Landen, pp 411–466. Boca Raton: CRC Press.
Food and Drug Administration (1996): Food Standards: amendment of standards of identity for enriched grain products to require addition of folic acid. Fed. Register 61, 8781–8797.
Ford ES & Bowman BA (1999): Serum and red blood cell folate concentrations, race, and education: findings from the third National Health and Nutrition Examination Survey. Am. J. Clin. Nutr. 69, 476–481.
Ganji V & Kafai MR (2003): Demographic, health, lifestyle, and blood vitamin determinants of serum total homocysteine concentrations in the third National Health and Nutrition Examination Survey, 1988–1994. Am. J. Clin. Nutr. 77, 826–833.
Green NS (2002): Folic acid supplementation and prevention of birth defects. J. Nutr. 132, 2356S–2360S.
Hertrampf E, Cortés F, Erickson JD, Cayazzo M, Freire W, Bailey LB, Howson C, Kauwell GPA & Pfeiffer C (2003): Consumption of folic acid—fortified bread improves folate status in women of reproductive age in Chile. J. Nutr. 133, 3166–3169.
House JD, March SB, Ratnam S, Ives E, Brosnan JT & Friel JK (2000): Folate and vitamin B12 status of women in Newfoundland at their first prenatal visit. CMAJ 30, 1557–1559.
Hyun T & Han Y-H (2001): Comparison of folate intake and food sources in college students using the 6th vs. 7th nutrient database. Korean J. Nutr. 34, 797–808. (in Korean).
Iwatani Y, Arcot J & Shrestha AK (2003): Determination of folate contents in some Australian vegetables. J. Food Comp. Anal. 16, 37–48.
Jacques PF, Rosenberg IH, Rogers G, Selhub J, Bowman BA, Gunter EW, Wright JD & Johnson CL (1999a): Serum total homocysteine concentrations in adolescent and adult Americans: results from the third National Health and Nutrition Examination Survey. Am. J. Clin. Nutr. 69, 482–489.
Jacques PF, Selhub J, Bostom AG, Wilson PWF & Rosenberg IH (1999b): The effect of folic acid fortification on plasma folate and total homocysteine concentrations. New Engl. J. Med. 340, 1449–1454.
Jacques PF, Bostom AG, Wilson PWF, Rich S, Rosenberg IH & Selhub J (2001): Determinants of plasma total homocysteine concentration in the Framingham offspring cohort. Am. J. Clin. Nutr. 73, 613–621.
Johnston KE, DiRienzo DB & Tamura T (2002a): Folate content of dairy products measured by microbiological assay with trienzyme treatment. J. Food Sci. 67, 817–820.
Johnston KE, Lofgren PA & Tamura T (2002b): Folate concentrations of fast foods measured by trienzyme extraction method. Food Res. Intern. 35, 565–569.
Kim MK, Ordovas JM, Selhub J & Campos H (2003): B vitamins and plasma homocysteine concentrations in an urban and rural area of Costa Rica. J. Am. Coll. Nutr. 22, 224–231.
Klein BP, Lee HC, Reynolds PA & Wangles NC (1979): Folacin content of microwave and conventionally cooked frozen vegetables. J. Food Sci. 44, 286–288.
Konings EJM, Roomans HHS, Dorani E, Goldbohm RA, Saris WHM & van den Brandt PA (2001): Folate intake of the Dutch population according to newly established liquid chromatography data for foods. Am. J. Clin. Nutr. 73, 765–776.
Korean Nutrition Society (2000): Recommended Dietary Allowances for Koreans, 7th revision. Seoul: Korean Nutrition Society. (in Korean).
Lee RD & Nieman DC (1996): Nutritional Assessment. St. Louis: Mosby.
Lee EM, Oh DJ, Rhee HJ, Kim EJ, Kim SM, Hwang GS, Ahn JC, Song WH, Lim DS, Park CG, Kim YH, Shim WJ & Ro YM (1998): Plasma homocysteine and risk of myocardial infarction in young age: relation with vitamin B6, B12, and folate. Korean Circ. J. 28, 1307–1313. (in Korean).
Lee SH, Kim JY, Lee HH, Lee BK, Ko JY, Yoo BS, Yoon J, Choe KH, Lee KH & Hwang SO (2000): The severity of extent of coronary atherosclerosis related to plasma homocysteine. Korean Circ. J. 30, 31–38. (in Korean).
Leichter J, Switzer VP & Landymore AF (1978): Effect of cooking on folate content of vegetables. Nutr. Rep. Int. 18, 475–479.
Lim HS & Heo YR (2002): Plasma total homocysteine, folate, and vitamin B12 status in Korean adults. J. Nutr. Sci. Vitaminol. 48, 290–297.
Martin JI, Landen Jr WC, Soliman AGM & Eitenmiller RR (1990): Application of a tri-enzyme extraction for total folate determination in foods. J. Assoc. Off. Anal. Chem. 73, 805–808.
McKillop DJ, Pentieva K, Daly D, McPartlin JM, Hughes J, Strain JJ Scott JM & McNulty H (2002): The effect of different cooking methods on folate retention in various foods that are amongst the major contributors to folate intake in the UK diet. Br. J. Nutr. 88, 681–688.
Ministry of Health and Welfare (1999): Report on 1998 National Health and Nutrition Survey (in Korean).
Ogle BM, Johansson M, Tuyet HT & Johannesson L (2001): Evaluation of the significance of dietary folate from wild vegetables in Vietnam. Asia Pacific J. Clin. Nutr. 10, 216–221.
Pfeiffer CM, Rogers LM & Gregory JF (1997): Determination of folate in cereal-grain food products using trienzyme extraction and combined affinity and reversed-phase liquid chromatography. J. Agric. Food Chem. 45, 407–413.
Planells E, Sanchez C, Montellano MA, Mataix J & Llopis J (2003): Vitmain B6, B12 and folate status in an adult Mediterranean population. Eur. J. Clin. Nutr. 57, 777–785.
Quinlivan EP & Gregory JF (2003): Effect of food fortification on folic acid intake in the United States. Am. J. Clin. Nutr. 77, 221–225.
Rader JI (2002): Folic acid fortification, folate status and plasma homocysteine. J. Nutr. 132, 2466S–2470S.
Rader JI, Weaver CM & Angyal G (1998): Use of a microbiological assay with tri-enzyme extraction for measurement of pre-fortification levels of folates in enriched cereal-grain products. Food Chem. 62, 451–465.
Rader JI, Weaver CM & Angyal G (2000): Total folate in enriched cereal-grain products in the United States following fortification. Food Chem. 70, 275–289.
Rampersaud GC, Kauwell GPA & Bailey LB (2003): Folate: a key to optimizing health and reducing disease risk in the elderly. J. Am. Coll. Nutr. 22, 1–8.
Rasmussen LB, Ovesen L, Bulow I, Knudsen N, Laurberg P & Perrild H (2000): Folate intake, lifestyle factors, and homocysteine concentrations in younger and older women. Am. J. Clin. Nutr. 72, 1156–1163.
Ray JG, Cole DEC & Boss SC (2000): An Ontario-wide study of vitamin B12, serum folate and red cell folate levels in relation to plasma homocysteine: is a preventable public health issue on the rise? Clin. Biochem. 33, 337–343.
Ray JG, Meier C, Vermeulen MJ, Boss S, Wyatt PR & Cole DEC (2002): Association of neural tube defects and folic acid food fortification in Canada. Lancet 360, 2047–2048.
Shane B (2003): Folate fortification: enough already? Am. J. Clin. Nutr. 77, 8–9.
Tamura T (1990): Microbiological assay of folates. In Folic Acid Metabolism in Health and Disease, eds. MF Picciano, ELR Stokstad & JF Gregory, pp 121–137. New York: Wiley-Liss.
Tamura T (1998): Determination of food folate. J. Nutr. Biochem. 9, 285–293.
Tamura T, Johnston KE & Bergman SM (1996): Homocysteine and folate concentrations in blood from patients treated with hemodialysis. J. Am. Soc. Nephrol. 7, 2414–2418.
USDA (2003): USDA Nutrient database for standard reference, Release 16. U.S. Department of Agricultural Research Service, USDA Nutrient Data Laboratory. (http://www.nal.usda.gov/fnic/foodcomp).
Vahteristo L, Lehikoinen K, Ollilainen V & Varo P (1997): Application of an HPLC assay for the determination of folate derivatives in some vegetables, fruits and berries consumed in Finland. Food Chem. 59, 589–597.
Yon M & Hyun TH (2003): Folate content of foods commonly consumed in Korea measured after trienzyme extraction. Nutr. Res. 23, 735–746.
Acknowledgements
We thank Kelley E Johnston (University of Alabama at Birmingham) for her help in homocysteine assay.
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Han, Y., Yon, M. & Hyun, T. Folate intake estimated with an updated database and its association to blood folate and homocysteine in Korean college students. Eur J Clin Nutr 59, 246–254 (2005). https://doi.org/10.1038/sj.ejcn.1602065
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DOI: https://doi.org/10.1038/sj.ejcn.1602065
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