Department of Nutrition, University of California, Davis, CA 95616, USA.
J Nutr. 2010 Sep;140(9):1683-90. doi: 10.3945/jn.110.123059. Epub 2010 Jul 28.
Rural Bangladeshi populations have a high risk of zinc deficiency due to their consumption of a predominantly rice-based diet with few animal-source foods. Breeding rice for higher zinc content would offer a sustainable approach to increase the population's zinc intakes. The objectives of the study were to quantify usual rice and zinc intakes in young children and their adult female primary caregivers and to simulate the potential impact of zinc-biofortified rice on their zinc intakes. We measured dietary intake in a representative sample of 480 children (ages 24-48 mo) and their female caregivers residing in 2 rural districts of northern Bangladesh. Dietary intakes were estimated by 12-h weighed records and 12-h recall in homes on 2 nonconsecutive days. Serum zinc concentrations were determined in a subsample of children. The median (25th, 75th percentile) rice intakes of children and female caregivers were 134 (99, 172) and 420 (365, 476) g raw weight/d, respectively. The median zinc intakes were 2.5 (2.1, 2.9) and 5.4 (4.8, 6.1) mg/d in children and women, respectively. Twenty-four percent of children had low serum zinc concentrations ( < 9.9 micromol/L) after adjusting for elevated acute phase proteins. Rice was the main source of zinc intake, providing 49 and 69% of dietary zinc to children and women, respectively. The prevalence of inadequate zinc intakes was high in both the children (22%) and women (73-100%). Simulated increases in rice zinc content to levels currently achievable through selective breeding decreased the estimated prevalence of inadequacy to 9% in children and 20-85% in women, depending on the assumptions used to estimate absorption. Rural Bangladeshi children and women have inadequate intakes of zinc. Zinc biofortification of rice has the potential to markedly improve the zinc adequacy of their diets.
孟加拉国农村地区的人口由于以大米为主的饮食,很少食用动物源食物,因此存在较高的缺锌风险。培育富含锌的水稻将为提高人口锌摄入量提供一种可持续的方法。本研究的目的是定量评估孟加拉国北部两个农村地区的幼儿及其成年女性主要照护者的日常大米和锌摄入量,并模拟锌生物强化大米对其锌摄入量的潜在影响。我们对居住在这两个农村地区的 480 名年龄在 24-48 个月的儿童及其女性照护者进行了代表性样本的膳食摄入量测量。通过家庭 12 小时称重记录和 12 小时回顾法在两天内进行两次非连续时间点的膳食摄入评估。对儿童进行了亚组血清锌浓度测定。儿童和女性照护者的中位数(25 分位、75 分位)的大米摄入量分别为 134(99、172)和 420(365、476)克生重/天。儿童和妇女的中位数锌摄入量分别为 2.5(2.1、2.9)和 5.4(4.8、6.1)毫克/天。调整了急性相蛋白升高后,有 24%的儿童血清锌浓度较低(<9.9 微摩尔/升)。大米是锌摄入的主要来源,分别为儿童和妇女提供了 49%和 69%的膳食锌。儿童(22%)和妇女(73-100%)的锌摄入量不足比例都很高。通过选择性育种实现的当前大米锌含量的增加,模拟结果显示,儿童的锌摄入不足率估计将从 9%降至 9%,妇女的锌摄入不足率将从 20%降至 85%,具体取决于用于估计吸收率的假设。孟加拉国农村地区的儿童和妇女锌摄入量不足。大米的锌生物强化具有显著改善其饮食锌充足性的潜力。
