Moretti Diego, Zimmermann Michael B, Muthayya Sumithra, Thankachan Prashanth, Lee Tung-Ching, Kurpad Anura V, Hurrell Richard F
Human Nutrition Laboratory, Institute of Food Science and Nutrition, Swiss Federal Institute of Technology, Zurich, Switzerland.
Am J Clin Nutr. 2006 Oct;84(4):822-9. doi: 10.1093/ajcn/84.4.822.
Iron fortification of rice could be an effective strategy for reducing iron deficiency anemia in South Asia.
We aimed to determine whether extruded rice grains fortified with micronized ground ferric pyrophosphate (MGFP) would increase body iron stores in children.
In a double-blind, 7-mo, school-based feeding trial in Bangalore, India, iron-depleted, 6-13-y-old children (n = 184) were randomly assigned to receive either a rice-based lunch meal fortified with 20 mg Fe as MGFP or an identical but unfortified control meal. The meals were consumed under direct supervision, and daily leftovers were weighed. All children were dewormed at baseline and at 3.5 mo. Iron status and hemoglobin were measured at baseline, 3.5 mo, and 7 mo.
At baseline, the prevalences of iron deficiency and iron deficiency anemia in the total sample were 78% and 29%, respectively. After 7 mo of feeding, there was a significant increase in body iron stores in both study groups (P < 0.001), with a greater increase in the iron group than in the control group (P < 0.05). There was a significant time x treatment interaction for iron deficiency, which fell from 78% to 25% in the dewormed iron group and from 79% to 49% in the dewormed control group. Iron deficiency anemia decreased from 30% to 15% (NS) in the iron group but remained virtually unchanged in the control group (28% and 27%). In sensory tests, the MGFP-fortified rice (fortified at 3 and 5 mg Fe/100 g) was indistinguishable from natural rice, in both cooked and uncooked form.
Extruded rice fortified with MGFP has excellent sensory characteristics. Fed in a school lunch meal, it increases iron stores and reduces the prevalence of iron deficiency in Indian children.
大米强化铁可能是减少南亚缺铁性贫血的有效策略。
我们旨在确定用微粉化焦磷酸铁(MGFP)强化的挤压大米颗粒是否会增加儿童体内的铁储备。
在印度班加罗尔进行的一项为期7个月的双盲、基于学校的喂养试验中,将184名6至13岁缺铁儿童随机分为两组,一组接受以MGFP形式强化20毫克铁的大米午餐,另一组接受相同但未强化的对照餐。餐食在直接监督下食用,每天的剩饭称重。所有儿童在基线时和3.5个月时进行驱虫。在基线、3.5个月和7个月时测量铁状态和血红蛋白。
基线时,总样本中铁缺乏和缺铁性贫血的患病率分别为78%和29%。喂养7个月后,两个研究组的体内铁储备均显著增加(P<0.001),铁组的增加幅度大于对照组(P<0.05)。缺铁存在显著的时间×治疗交互作用,驱虫后的铁组从78%降至25%,驱虫后的对照组从79%降至49%。铁组缺铁性贫血从30%降至15%(无统计学意义),而对照组几乎保持不变(28%和27%)。在感官测试中,以3毫克铁/100克和5毫克铁/100克强化的MGFP大米,无论是煮熟还是未煮熟的形式,都与天然大米没有区别。
用MGFP强化的挤压大米具有优异的感官特性。在学校午餐中食用,它可增加印度儿童的铁储备并降低缺铁患病率。
