OBJECTIVE: Preventing iron deficiency has been a main target of the World Health Organization since 1992. Difficulties to reach dietary recommended iron intakes and to enhance iron absorption should be overcome. We compared in iron-deficient women the bioavailability of iron of three meat pate products enriched with ferrous sulfate, ferric pyrophosphate encapsulated in liposomes, or ferric pyrophosphate encapsulated in liposomes plus a hemoglobin-based meat pigment. METHODS:Seventeen women with low iron stores (ferritin <30 microg/L) took part in a three-way, randomized, crossover, double-blind postprandial intervention. Test meals consisted of 80 g of the three different enriched meat pate products, which were spread on two slices of white bread. The pate composition was 13.5 g of protein/100 g, 30 g of fat/100 g (49% monounsaturated fatty acids, 35% saturated fatty acids, 16% polyunsaturated fatty acids), 1 g of carbohydrates/100 g, and 19 mg of total iron (including 15 mg of iron from the test fortificants). Blood samples were taken at baseline and each hour for 6 h after eating the meal and serum iron was determined. RESULTS:Serum iron concentration evolution during the postprandial study was similar with the three meals, and maximum concentrations were obtained between hours 2 and 4. The effect of type of fortificant was not significant. CONCLUSION: Consumption of meat pate fortified with ferric pyrophosphate encapsulated in liposomes can be part of a dietary strategy for preventing iron deficiency in humans. The addition of larger amounts of a meat pigment rich in heme iron should be further studied.
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OBJECTIVE: Preventing iron deficiency has been a main target of the World Health Organization since 1992. Difficulties to reach dietary recommended iron intakes and to enhance iron absorption should be overcome. We compared in iron-deficient women the bioavailability of iron of three meat pate products enriched with ferrous sulfate, ferric pyrophosphate encapsulated in liposomes, or ferric pyrophosphate encapsulated in liposomes plus a hemoglobin-based meat pigment. METHODS: Seventeen women with low iron stores (ferritin <30 microg/L) took part in a three-way, randomized, crossover, double-blind postprandial intervention. Test meals consisted of 80 g of the three different enriched meat pate products, which were spread on two slices of white bread. The pate composition was 13.5 g of protein/100 g, 30 g of fat/100 g (49% monounsaturated fatty acids, 35% saturated fatty acids, 16% polyunsaturated fatty acids), 1 g of carbohydrates/100 g, and 19 mg of total iron (including 15 mg of iron from the test fortificants). Blood samples were taken at baseline and each hour for 6 h after eating the meal and serum iron was determined. RESULTS: Serum iron concentration evolution during the postprandial study was similar with the three meals, and maximum concentrations were obtained between hours 2 and 4. The effect of type of fortificant was not significant. CONCLUSION: Consumption of meat pate fortified with ferric pyrophosphate encapsulated in liposomes can be part of a dietary strategy for preventing iron deficiency in humans. The addition of larger amounts of a meat pigment rich in hemeiron should be further studied.
Authors: Carlos Contreras; María Dolores Barnuevo; Isabel Guillén; Antonio Luque; Elisabet Lázaro; Jordi Espadaler; Javier López-Román; José A Villegas Journal: Eur J Nutr Date: 2013-07-27 Impact factor: 5.614