Hostname: page-component-cd9895bd7-gxg78 Total loading time: 0 Render date: 2024-12-25T06:58:35.311Z Has data issue: false hasContentIssue false

Effects of revision of Japanese food composition tables on estimation of nutrient intakes, with reference to age-dependent differences

Published online by Cambridge University Press:  02 January 2007

Naoko Matsuda-Inoguchi
Affiliation:
Department of Food and Nutrition, Kyoto Women's University, Kyoto, Japan
Shinichiro Shimbo
Affiliation:
Department of Food and Nutrition, Kyoto Women's University, Kyoto, Japan
Haruo Nakatsuka
Affiliation:
Miyagi University, Taiwa-cho, Japan
Takao Watanabe
Affiliation:
Miyagi University of Education, Sendai, Japan
Kae Higashikawa
Affiliation:
Kyoto Industrial Health Association, 67 Nishinokyo-Kitatsuboicho, Nakagyo-ku, Kyoto 604-8472, Japan
Masayuki Ikeda*
Affiliation:
Kyoto Industrial Health Association, 67 Nishinokyo-Kitatsuboicho, Nakagyo-ku, Kyoto 604-8472, Japan
*
*Corresponding author: Email [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.
Objective:

To identify effects of revision of the Japanese food composition tables from the fourth version to the fifth version on nutrient intake estimation.

Design:

A database on 783 samples of 24-hour food duplicate portions was re-visited. Nutrients in the duplicate portions were estimated by use of the fourth and fifth versions of the Japanese food composition tables in parallel, together with supplemental use of other databases. The two sets of estimates were subjected to comparison.

Setting:

The sample collection was conducted at 31 sites all over Japan.

Subjects:

The sample donors were 783 women aged 20–78 years.

Results:

Compared with the estimates by use of the fourth version of the tables, the estimates by the fifth version were substantially higher for intakes of energy, carbohydrate, dietary fibre, vitamin A and niacin, and lower for iron intake. The increase in carbohydrate intake estimates was more evident in older women than in young women, whereas the decrease in the intake estimation of iron and the increase in that of dietary fibre were more marked in young women than in older women.

Conclusion:

The recent revision of food composition tables in Japan induced substantial changes in the estimation of nutrient intakes, i.e. an increase in energy, carbohydrate, dietary fibre, vitamin A and niacin, and a decrease in iron. The extent of the changes varied depending on age.

Type
Research Article
Copyright
Copyright © The Authors 2004

References

1Dwyer, JT. Future directions in food composition studies. Journal of Nutrition 1994; 124(Suppl. 9): 1783S–8S.CrossRefGoogle ScholarPubMed
2Clark, AJ, Mossholder, S. Sodium and potassium intake measurements; dietary methodology problems. American Journal of Clinical Nutrition 1986; 43: 470–6.CrossRefGoogle ScholarPubMed
3Knuiman, JT, Rasanen, L, Ahola, M, West, CE, van den Snoek, L. The relative validity of reports of food intake of Dutch and Finnish boys aged 8 and 9 years. Journal of the American Dietetic Association 1987; 87: 303–7.CrossRefGoogle Scholar
4Nagata, Y, Suzue, R. Comparison of young women's salt intake between Japan and England: consideration on different measurement methods in national nutrition surveys. Journal of Nutritional Science and Vitaminology 1996; 42: 1926.CrossRefGoogle ScholarPubMed
5Tsubono, Y, Sasaki, S, Kobayashi, M, Akabane, M, Tsugane, S. Food composition and empirical weight methods in predicting nutrient intakes from food frequency questionnaire. Annals of Epidemiology 2001; 11: 213–8.CrossRefGoogle ScholarPubMed
6Sasaki, S, Matsumura, Y, Ishihara, J, Tsugane, S. Validity of a self-administered food frequency questionnaire used in the 5-year follow-up survey of the JPHC Study Cohort I to assess dietary fiber intake; comparison with dietary records. Journal of Epidemiology 2003; 13(Suppl. 1): S106–14.CrossRefGoogle ScholarPubMed
7Shimbo, S, Zhang, Z-W, Miyake, K, Watanabe, T, Nakatsuka, H, Matsuda-Inoguchi, N, et al. Estimates of mineral intakes using food composition tables vs measures by inductively-coupled plasma mass spectrometry: Part 2. Sodium, potassium, magnesium, copper and zinc. European Journal of Clinical Nutrition 1999; 53: 233–8.CrossRefGoogle Scholar
8Zhang, Z-W, Shimbo, S, Miyake, K, Watanabe, T, Nakatsuka, H, Matsuda-Inoguchi, N, et al. Estimates of mineral intakes using food composition tables vs measures by inductively-coupled plasma mass spectrometry: Part 1. Calcium, phosphorus and iron. European Journal of Clinical Nutrition 1999; 53: 226–32.CrossRefGoogle ScholarPubMed
9Kim, E-S, Ko, Y-S, Kim, J, Matsuda-Inoguchi, N, Nakatsuka, H, Watanabe, T, et al. Food composition table-based estimation of energy and major nutrient intake in comparison with chemical analysis: a validation study in Korea. Tohoku Journal of Experimental Medicine 2003; 200: 715.CrossRefGoogle ScholarPubMed
10Resource Council, Science and Technology Agency, the Government of Japan. Standard Tables of Food Composition in Japan, 5th revised version. Tokyo: Ministry of Finance Printing Bureau, 2000.[in Japanese with English translation].Google Scholar
11Resource Council, Science and Technology Agency, the Government of Japan. Standard Tables of Food Composition in Japan, 4th revised version. Tokyo: Ministry of Finance Printing Bureau, 1982 [in Japanese with English translation].Google Scholar
12Ministry of Health and Welfare, the Government of Japan. Review on Public Nutrition in Japan in 1955 to 1988. Tokyo: Dai-ichi Shuppan Press, 2000 [in Japanese].Google Scholar
13Ministry of Health and Welfare, the Government of Japan. National Nutritional Survey in Japan, 1989–2001 [annual reports] Tokyo: Dai-ichi Shuppan Press, 19912003 [in Japanese]Google Scholar
14Matsuda-Inoguchi, N, Nakatsuka, H, Watanabe, T, Shimbo, S, Higashikawa, K, Ikeda, M. Estimation of nutrient intake by the new version of Japanese food composition tables in comparison with that by the previous version. Tohoku Journal of Experimental Medicine 2001; 194: 229–39.CrossRefGoogle ScholarPubMed
15Ikeda, J, Asano, H, Nagata, H. Dietary life of female college students (Part 1). Survey on nutrition awareness and their mode of living affecting their nutrient intake [in Japanese with English abstract]. Japanese Journal of Nutrition 1983; 41: 103–16.Google Scholar
16Shiraki, M, Iwasaki, N. Effects of a habit of skipping meals on dietary life of college students [in Japanese with English abstract]. Japanese Journal of Nutrition 1986; 44: 257–65.Google Scholar
17Someya, R, Negishi, Y, Mizuno, K, Muto, S. Dietary life of female college students [in Japanese with English abstract]. Japanese Journal of Nutrition 1989; 47: 251–8.Google Scholar
18Cai, MQ, Yan, WY. Study on iron nutritional status in adolescence. Biomedical and Environmental Sciences 1990; 3: 113–9.Google Scholar
19Hendricks, KM, Herbold, NH. Diet, activity, and other health-related behaviors in college women. Nutrition Reviews 1998; 56: 6575.CrossRefGoogle Scholar
20Watanabe, T, Zhang, Z-W, Moon, C-S, Shimbo, S, Nakatsuka, H, Matsuda-Inoguchi, N, et al. Cadmium exposure of women in general populations in Japan during 1991 – 1997 compared with 1977 – 1981. International Archives of Occupational and Environmental Health 2000; 73: 2634.CrossRefGoogle ScholarPubMed
21World Health Organization (WHO). Guidelines for the Study of Dietary Intakes of Chemical Contaminants. WHO Offset Publication No. 87. Geneva: WHO, 1985.Google Scholar
22Resource Council, Science and Technology Agency, the Government of Japan. Standard Tables of Food Composition in Japan; Dietary Fibers. Tokyo: Ministry of Finance Printing Bureau, 1992 [in Japanese with English translation].Google Scholar
23Resource Council, Science and Technology Agency, the Government of Japan. Standard Tables of Food Composition in Japan; Fatty Acids, Cholesterol and Vitamin E. Tokyo: Ministry of Finance Printing Bureau, 1989 [in Japanese with English translation].Google Scholar
24Kagawa, Y. Food Composition Tables for Commercial Precooked Food. Tokyo: Kagawa University of Nutrition Press, 1995 [in Japanese].Google Scholar
25Shimbo, S, Hayase, A, Murakami, M, Hatai, I, Higashikawa, K, Moon, C-S, et al. Use of a food composition database to estimate daily dietary intake of nutrient or trace elements in Japan, with reference to its limitation. Food Additives and Contaminants 1996; 13: 775–86.CrossRefGoogle ScholarPubMed
26Ministry of Health and Welfare, the Government of Japan. Recommended Dietary Allowances, 6th version. Tokyo: Dai-ichi Shuppan Press, 1999 [in Japanese].Google Scholar
27Watanabe, T, Miyasaka, M, Koizumi, A, Ikeda, M. Regional difference in sodium chloride content in home-made and store-bought preparations of miso paste. Tohoku Journal of Experimental Medicine 1982; 137: 305–13.CrossRefGoogle ScholarPubMed
28Obesity Criteria Committee, Japan Society for Study on Obesity. New concept of obesity and diagnostic criteria [in Japanese]. Journal of the Japanese Society for the Study of Obesity 2000; 6: 1828.Google Scholar
29Shimbo, S, Imai, Y, Tominaga, N, Gotoh, T, Yokota, M, Inoguchi, N, et al. Insufficient calcium and iron intakes among general female population in Japan, with special reference to inter-regional differences. Journal of Trace Elements in Medicine and Biology 1996; 10: 133–8.CrossRefGoogle ScholarPubMed
30Shimbo, S, Moon, C-S, Zhang, Z-W, Watanabe, T, Noor Hassim, I, Romzi, MA, et al. Nutritional evaluation of working Malay women in Kuala Lumpur as studied by total food duplicate method. Tohoku Journal of Experimental Medicine 1996; 180: 99114.CrossRefGoogle Scholar
31Shimbo, S, Moon, C-S, Zhang, Z-W, Watanabe, T, Guo, LL, Ma, W-C, et al. Nutritional evaluation of Chinese working women in the city of Tainan, Taiwan. Tohoku Journal of Experimental Medicine 1997; 181: 339–52.CrossRefGoogle ScholarPubMed
32Moon, C-M, Zhang, Z-W, Imai, M, Shimbo, S, Watanabe, T, Moon, D-H, et al. Nutritional status of women in urban and rural areas in Korea as assayed by total food duplicate method. Tohoku Journal of Experimental Medicine 1997; 181: 245–65.CrossRefGoogle Scholar
33Nakatsuka, H, Zhang, Z-W, Agetano, MG, Subida, RD, Inouguchi, N, Watanabe, T, et al. Total food duplicate study on nutrient intake of working women in Manila, the Philippines. Tohoku Journal of Experimental Medicine 1998; 184: 189205.CrossRefGoogle Scholar
34Matsuda-Inoguchi, N, Shimbo, S, Zhang, Z-W, Srianujata, S, Banjong, O, Chitchumroonchokchai, C, et al. Nutrient intake of working women in Bangkok, Thailand, as studied by total food duplicate method. European Journal of Clinical Nutrition 2000; 54: 187–94.CrossRefGoogle ScholarPubMed