Efficacy of sodium iron ethylenediaminetetraacetic acid as a food fortifier for improving the iron-deficient status of anemic rats
Summary : Iron deficiency is one of the major nutritional problems in developing countries such as Vietnam, especially among children, infants, and women of childbearing age. The main causative factor is poor absorption of iron from food, and therefore food fortification is assumed to be an effectiv...
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| Published in | Nihon Eiyō, Shokuryō Gakkai shi Vol. 57; no. 2; pp. 89 - 97 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
Japan Society of Nutrition and Food Science
2004
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0287-3516 1883-2849 |
| DOI | 10.4327/jsnfs.57.89 |
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| Abstract | Summary : Iron deficiency is one of the major nutritional problems in developing countries such as Vietnam, especially among children, infants, and women of childbearing age. The main causative factor is poor absorption of iron from food, and therefore food fortification is assumed to be an effective method for improving iron deficiency. Sodium iron ethylenediaminetetraacetic acid (NaFeEDTA), a metal chelate, is one type of iron fortificant. Its safety was provisionally approved by the Joint Food and Agricultural Organizatio?/World Health Organization Expert Comnaittee on Food Additives (JECFA) in 1999. We have found that NaFeEDTA is most soluble in fish sauces and also has less effect on food taste and flavor among several iron fortificant tested. In this study, we first investigated the stability of NaFeEDTA in fish sauces compared with other iron fortificant, such as ferrous sulfate, sodium ferrous citrate and emulsified ferric pyrophosphate, that are used to preserve the quality of fish sauce. Sauce containing NaFeEDTA was analyzed for pH value and color 1 month after fortification. After mixing each of the fish sauces and fortificant, the samples were stored at 37 deg C and then examined. Ferrous sulfate, sodium ferrous citrate and emulsified ferric pyrophosphate were not soluble in fish sauces after 24 h. NaFeEDTA was highly soluble in all samples. In addition, fish sauces fortified with NaFeEDTA maintained a constant pH during storage, indicating that NaFeEDTA has little effect on the quality of the sauces. We then examined the efficacy of NaFeEDTA and other iron fortificant for improving iron deficient status in anemic rats fed an AIN-93 diet or a rice-based diet. There was no significant difference in hemoglobin value between rats on the NaFeEDTA diet and other rats. The liver iron content of rats fed the NaFeEDTA-containing AIN-93 diet was lower than that of rats fed the ferrous sulfate-containing AIN-93 diet. On the other hand, there was no significant difference in the liver iron content between rats fed NaFeEDTA-containing and ferrous sulfate-containing rice-based diets. The liver iron content of rats fed the NaFeEDTA-containing rice-based diet was higher than that of rats fed the ferrous citratecontaining rice-based diet, indicating that NaFeEDTA is highly efficient for improving iron deficiency in animals receiving the rice-based diet. These results suggest that NaFeEDTA is a suitable fortificant for fish sauce and may be effective for improving iron deficiency in developing countries. |
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| AbstractList | Iron deficiency is one of the major nutritional problems in developing countries such as Vietnam, especially among children, infants, and women of childbearing age. The main causative factor is poor absorption of iron from food, and therefore food fortification is assumed to be an effective method for improving iron deficiency. Sodium iron ethylenediaminetetraacetic acid (NaFeEDTA), a metal chelate, is one type of iron fortificant. Its safety was provisionally approved by the Joint Food and Agricultural Organization/World Health Organization Expert Committee on Food Additives (JECFA) in 1999. We have found that NaFeEDTA is most soluble in fish sauces and also has less effect on food taste and flavor among several iron fortificant tested. In this study, we first investigated the stability of NaFeEDTA in fish sauces compared with other iron fortificant, such as ferrous sulfate, sodium ferrous citrate and emulsified ferric pyrophosphate, that are used to preserve the quality of fish sauce. Sauce containing NaFeEDTA was analyzed for pH value and color 1 month after fortification. After mixing each of the fish sauces and fortificant, the samples were stored at 37°C and then examined. Ferrous sulfate, sodium ferrous citrate and emulsified ferric pyrophosphate were not soluble in fish sauces after 24h. NaFeEDTA was highly soluble in all samples. In addition, fish sauces fortified with NaFeEDTA maintained a constant pH during storage, indicating that NaFeEDTA has little effect on the quality of the sauces. We then examined the efficacy of NaFeEDTA and other iron fortificant for improving iron deficient status in anemic rats fed an AIN-93 diet or a rice-based diet. There was no significant difference in hemoglobin value between rats on the NaFeEDTA diet and other rats. The liver iron content of rats fed the NaFeEDTA-containing AIN-93 diet was lower than that of rats fed the ferrous sulfate-containing AIN-93 diet. On the other hand, there was no significant difference in the liver iron content between rats fed NaFeEDTA-containing and ferrous sulfate-containing rice-based diets. The liver iron content of rats fed the NaFeEDTA-containing rice-based diet was higher than that of rats fed the ferrous citratecontaining rice-based diet, indicating that NaFeEDTA is highly efficient for improving iron deficiency in animals receiving the rice-based diet. These results suggest that NaFeEDTA is a suitable fortificant for fish sauce and may be effective for improving iron deficiency in developing countries. Summary : Iron deficiency is one of the major nutritional problems in developing countries such as Vietnam, especially among children, infants, and women of childbearing age. The main causative factor is poor absorption of iron from food, and therefore food fortification is assumed to be an effective method for improving iron deficiency. Sodium iron ethylenediaminetetraacetic acid (NaFeEDTA), a metal chelate, is one type of iron fortificant. Its safety was provisionally approved by the Joint Food and Agricultural Organizatio?/World Health Organization Expert Comnaittee on Food Additives (JECFA) in 1999. We have found that NaFeEDTA is most soluble in fish sauces and also has less effect on food taste and flavor among several iron fortificant tested. In this study, we first investigated the stability of NaFeEDTA in fish sauces compared with other iron fortificant, such as ferrous sulfate, sodium ferrous citrate and emulsified ferric pyrophosphate, that are used to preserve the quality of fish sauce. Sauce containing NaFeEDTA was analyzed for pH value and color 1 month after fortification. After mixing each of the fish sauces and fortificant, the samples were stored at 37 deg C and then examined. Ferrous sulfate, sodium ferrous citrate and emulsified ferric pyrophosphate were not soluble in fish sauces after 24 h. NaFeEDTA was highly soluble in all samples. In addition, fish sauces fortified with NaFeEDTA maintained a constant pH during storage, indicating that NaFeEDTA has little effect on the quality of the sauces. We then examined the efficacy of NaFeEDTA and other iron fortificant for improving iron deficient status in anemic rats fed an AIN-93 diet or a rice-based diet. There was no significant difference in hemoglobin value between rats on the NaFeEDTA diet and other rats. The liver iron content of rats fed the NaFeEDTA-containing AIN-93 diet was lower than that of rats fed the ferrous sulfate-containing AIN-93 diet. On the other hand, there was no significant difference in the liver iron content between rats fed NaFeEDTA-containing and ferrous sulfate-containing rice-based diets. The liver iron content of rats fed the NaFeEDTA-containing rice-based diet was higher than that of rats fed the ferrous citratecontaining rice-based diet, indicating that NaFeEDTA is highly efficient for improving iron deficiency in animals receiving the rice-based diet. These results suggest that NaFeEDTA is a suitable fortificant for fish sauce and may be effective for improving iron deficiency in developing countries. |
| Author | Enomoto, S Okayasu, M Kimura, S Nakamura, H Igarashi, K. (Institute of Physical and Chemical Research, Wako, Saitama (Japan)) Nakadai, T Nakanishi, Y Hirunuma, R |
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| References | 24) 泉美治他監修 (1996) 機器分析のてびき. 化学同人, 京都. 3) 鈴木継美, 和田攻 (1994) ミネラル・微量元素の栄養学. 第一出版, 東京. 6) Gillooly M, Bothwell TH, Torrance JD (1983) The effects of organic acid, phytates and polyphenols on the absorption of iron from vegetables. Br J Nutr 49: 331-42. 9) Cook JD, Reusser M (1983) Iron fortification; an update. Am J Clin Nutr 38: 648-59. 19) Ballot DE, MacPhail AP, Bothwell TH, Gillooly M, Mayet FG (1989) Fortification of curry powder with NaFe (III) EDTA in an iron-deficient population: Report of a controlled ironfortification trial. Am J Clin Nutr 49: 162-9. 7) NIN/UNICEF/CDC/PAMM (1995) Report of The National Anemia and Nutrition Risk Factor Survey, Hanoi, Vietnum. 2) Hallberg L (1981) Bioavailability of dietary iron in man. Annu Rev Nutr 1: 123-47. 11) Florentino RF, Pedro MRA (1998) Update on rice fortification in the Phillipines. Food Nutr Bull 19: 149-53. 18) Underwood BA (1983) Nutrition Intervention Strategies in National Development. Academic Press, New York. 10) Olivarez M, Pizarro F, Pineda O, Name JJ, Hertrampf E, Walter T (1997) Milk inhibits and ascorbic acid favors ferrous bis-glycine chelate bioavailability in humans. J Nutr 127: 1407-11. 17) Garby L, Areekul S (1974) Iron supplementation in Thai fish-sauce. Ann Trop Med Parasitol 68: 467-76. 15) Lynch SR, Hurrell RF, Bothwell TH, MacPhail AP (1993) Iron EDTA for food fortification. In: A Report of the International Anemia Consultative Group (INACG). The Nutrition Foundation (ILSI), Washington DC. 21) 柴田進, 佐々木匡秀 (1966) 日常臨床化学超微量定量法. 金芳堂, 京都. 20) Reeves PG (1997) Components of the AIN-93 diets as improvements in the AIN-76 diet. J Nutr 127 (5 Suppl): 838S-41S. 13) Mai LB (1996) The changes of current daily food intake at some ecological regions of the country after 10 years study (1985-1995). In: NIN Report. Hanoi, Vietnum. 22) 斎藤幹彦, 堀口大吉, 喜納兼勇 (1981) 新規水溶性ニトロソフェノール誘導体による微量鉄 (II) の吸光光度定量. 分析化学30, 635-9. 23) 松原高賢 (1963) 鉄と血色素. 南江堂, 東京. 14) Hurrel RF (1997) Preventing iron deficiency through food fortification. Nutr Rev 55: 210-22. 12) Chavasit V, Tontisirin K (1998) Triple fortification of instant noodles in Thailand. Food Nutr Bull 19: 164-7. 4) Tu Giay, Khoi HH (1991) Current daily food intake of Vietnam peasants at some ecological regions of the country. In: Nutrition Monograph 1980-1990. Medical Publishing House, Hanoi. 1) Demaeyer E, Adiets-Tegman M (1985) The prevalence of anemia in the world. Wld Hlth Statist Quart 38: 302-16. 5) Hallberg L, Rossander L, Skanberg AB (1987) Phytates and the inhibitory effect of bran on iron absorption in man. Am J Clin Nutr 45: 988-96. 8) Fomon SJ, Zlotkin S (1992) Nutrition Anemias, Nestle Nutrition Workshop Series, Vol. 30. Vevey/Raven Press, New York. 16) Bothwell TH (1999) Iron fortification with special reference to the role of iron EDTA. Arc Lat Nutr 49: 23S-33S. |
| References_xml | – reference: 18) Underwood BA (1983) Nutrition Intervention Strategies in National Development. Academic Press, New York. – reference: 6) Gillooly M, Bothwell TH, Torrance JD (1983) The effects of organic acid, phytates and polyphenols on the absorption of iron from vegetables. Br J Nutr 49: 331-42. – reference: 21) 柴田進, 佐々木匡秀 (1966) 日常臨床化学超微量定量法. 金芳堂, 京都. – reference: 12) Chavasit V, Tontisirin K (1998) Triple fortification of instant noodles in Thailand. Food Nutr Bull 19: 164-7. – reference: 14) Hurrel RF (1997) Preventing iron deficiency through food fortification. Nutr Rev 55: 210-22. – reference: 11) Florentino RF, Pedro MRA (1998) Update on rice fortification in the Phillipines. Food Nutr Bull 19: 149-53. – reference: 3) 鈴木継美, 和田攻 (1994) ミネラル・微量元素の栄養学. 第一出版, 東京. – reference: 4) Tu Giay, Khoi HH (1991) Current daily food intake of Vietnam peasants at some ecological regions of the country. In: Nutrition Monograph 1980-1990. Medical Publishing House, Hanoi. – reference: 15) Lynch SR, Hurrell RF, Bothwell TH, MacPhail AP (1993) Iron EDTA for food fortification. In: A Report of the International Anemia Consultative Group (INACG). The Nutrition Foundation (ILSI), Washington DC. – reference: 23) 松原高賢 (1963) 鉄と血色素. 南江堂, 東京. – reference: 7) NIN/UNICEF/CDC/PAMM (1995) Report of The National Anemia and Nutrition Risk Factor Survey, Hanoi, Vietnum. – reference: 1) Demaeyer E, Adiets-Tegman M (1985) The prevalence of anemia in the world. Wld Hlth Statist Quart 38: 302-16. – reference: 10) Olivarez M, Pizarro F, Pineda O, Name JJ, Hertrampf E, Walter T (1997) Milk inhibits and ascorbic acid favors ferrous bis-glycine chelate bioavailability in humans. J Nutr 127: 1407-11. – reference: 24) 泉美治他監修 (1996) 機器分析のてびき. 化学同人, 京都. – reference: 5) Hallberg L, Rossander L, Skanberg AB (1987) Phytates and the inhibitory effect of bran on iron absorption in man. Am J Clin Nutr 45: 988-96. – reference: 9) Cook JD, Reusser M (1983) Iron fortification; an update. Am J Clin Nutr 38: 648-59. – reference: 13) Mai LB (1996) The changes of current daily food intake at some ecological regions of the country after 10 years study (1985-1995). In: NIN Report. Hanoi, Vietnum. – reference: 17) Garby L, Areekul S (1974) Iron supplementation in Thai fish-sauce. Ann Trop Med Parasitol 68: 467-76. – reference: 20) Reeves PG (1997) Components of the AIN-93 diets as improvements in the AIN-76 diet. J Nutr 127 (5 Suppl): 838S-41S. – reference: 16) Bothwell TH (1999) Iron fortification with special reference to the role of iron EDTA. Arc Lat Nutr 49: 23S-33S. – reference: 22) 斎藤幹彦, 堀口大吉, 喜納兼勇 (1981) 新規水溶性ニトロソフェノール誘導体による微量鉄 (II) の吸光光度定量. 分析化学30, 635-9. – reference: 19) Ballot DE, MacPhail AP, Bothwell TH, Gillooly M, Mayet FG (1989) Fortification of curry powder with NaFe (III) EDTA in an iron-deficient population: Report of a controlled ironfortification trial. Am J Clin Nutr 49: 162-9. – reference: 2) Hallberg L (1981) Bioavailability of dietary iron in man. Annu Rev Nutr 1: 123-47. – reference: 8) Fomon SJ, Zlotkin S (1992) Nutrition Anemias, Nestle Nutrition Workshop Series, Vol. 30. Vevey/Raven Press, New York. |
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| Snippet | Summary : Iron deficiency is one of the major nutritional problems in developing countries such as Vietnam, especially among children, infants, and women of... Iron deficiency is one of the major nutritional problems in developing countries such as Vietnam, especially among children, infants, and women of childbearing... |
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| SubjectTerms | DEFICIENCY DISEASES emulsified ferric pyrophosphate ferrous sulfate FERROUS SULPHATE FOOD ENRICHMENT food fortification IRON iron deficiency NaFeEDTA RATS sodium ferrous citrate |
| Title | Efficacy of sodium iron ethylenediaminetetraacetic acid as a food fortifier for improving the iron-deficient status of anemic rats |
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