在推广生物强化玉米的背景下,赞比亚儿童对白玉米和橙玉米的摄入量比较。
Comparative intake of white- versus orange-colored maize by Zambian children in the context of promotion of biofortified maize.
作者信息
Nuss Emily T, Arscott Sara A, Bresnahan Kara, Pixley Kevin V, Rocheford Torbert, Hotz Christine, Siamusantu Ward, Chileshe Justin, Tanumihardjo Sherry A
机构信息
University of Wisconsin-Madison, Department of Nutritional Sciences, 1415 Linden Dr., Madison, WI 53706, USA.
出版信息
Food Nutr Bull. 2012 Mar;33(1):63-71. doi: 10.1177/156482651203300106.
BACKGROUND
Vitamin A deficiency is associated with poor health outcomes related to reproduction, growth, vision, and immunity. Biofortification of staple crops is a novel strategy for combating vitamin A deficiency in high-risk populations where staple food intakes are high. African populations are proposed beneficiaries of maize (Zea mays) biofortified with provitamin A carotenoids, often called "orange maize" because of its distinctive deep yellow-orange kernels. The color facilitates ready recognition but presents a cultural challenge to maize-consuming populations, including those in much of Africa, who traditionally eat white varieties.
OBJECTIVE
This study explores the intake patterns of, as well as adaptation to, traditional foods made with provitamin A-biofortified maize compared with white maize in rural Zambian children 3 to 5 years of age (n = 189) during a 3-month feeding trial.
METHODS
The subjects were fed a breakfast of maize porridge (sweet mush), a lunch of maize nshima (stiff mush) with various side dishes, and an afternoon snack based on a 6-day rotating menu. The trial was conducted in 2010. The orange maize used in the trial came from three different sources. O1 maize was from the 2009 harvest and was stored in a freezer until use in 2010. O2 maize was also from the 2009 harvest and was stored in a cold room until 2010. O3 ("fresh") maize was from the 2010 harvest and was fed immediately after harvest in week 9 of the study and then stored in a freezer until milling for the final four weeks.
RESULTS
Consumption of menu items, except snacks, was influenced by week (p < .0084). The intakes of porridge and nshima made with orange maize equaled those of porridge and nshima made with white maize from week 2 onward. The intakes of porridge and nshima prepared from O1 and O2 did not differ, but intakes became significantly higher when meals made from O3 were introduced (p < .014 for porridge and p < or = .013 for nshima).
CONCLUSIONS
These results demonstrate quick adaptation to orange maize, a preference for recently harvested maize, and an optimistic outlook for similar adaptation patterns in other biofortified-maize target countries.
背景
维生素A缺乏与生殖、生长、视力和免疫等方面的健康不良后果相关。主粮作物的生物强化是一种在主食摄入量高的高危人群中对抗维生素A缺乏的新策略。非洲人群被认为是富含维生素A原类胡萝卜素的生物强化玉米(通常因其独特的深黄橙色谷粒而被称为“橙色玉米”)的受益者。这种颜色便于识别,但对于食用玉米的人群,包括非洲大部分地区传统上食用白色品种玉米的人群来说,存在文化方面的挑战。
目的
本研究在一项为期3个月的喂养试验中,探索了赞比亚农村3至5岁儿童(n = 189)食用富含维生素A原生物强化玉米与白色玉米制成的传统食物的摄入模式以及适应情况。
方法
受试者早餐食用玉米粥(甜糊),午餐食用玉米稀粥(稠糊)搭配各种配菜,下午点心基于6天轮换菜单。试验于2010年进行。试验中使用的橙色玉米来自三个不同来源。O1玉米来自2009年收获,储存在冷冻库中直至2010年使用。O2玉米也来自2009年收获,储存在冷藏室中直至2010年。O3(“新鲜”)玉米来自2010年收获,在研究第9周收获后立即喂食,然后储存在冷冻库中直至最后四周磨粉。
结果
除点心外,菜单项目的消费量受周数影响(p < .0084)。从第2周起,用橙色玉米制成的粥和稀粥的摄入量与用白色玉米制成的粥和稀粥的摄入量相当。用O1和O2制成的粥和稀粥的摄入量没有差异,但引入用O3制成的餐食后摄入量显著增加(粥p < .014,稀粥p <或= .013)。
结论
这些结果表明对橙色玉米的快速适应、对新收获玉米的偏好,以及对其他生物强化玉米目标国家类似适应模式的乐观前景。
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