Laboratory of Human Nutrition, ETH Zürich, 8092, Zurich, Switzerland.
Nanoscale. 2011 Jun;3(6):2390-8. doi: 10.1039/c0nr00858c. Epub 2011 Apr 11.
Recent studies suggest nanostructured oxides and phosphates of Fe and atomically mixed Fe/Zn may be useful for nutritional applications. These compounds may have several advantages over existing fortificants, such as ferrous sulfate (FeSO(4)), NaFeEDTA and electrolytic iron. Because of their very low solubility and formation of soft agglomerates of micron size at neutral pH as well as their light native color, they tend to be less reactive in difficult-to-fortify foods and thus have superior sensory performance. At gastric pH the soft agglomerates break up and the Fe compounds rapidly and completely dissolve due to their very high surface area. This results in in vitro solubility and in vivo bioavailability comparable to FeSO(4). Doping with Mg and/or Ca may increase solubility and improve sensory characteristics by lightening color. Feeding the nanostructured compounds at 150-400 µg Fe day(-1) for 15 days to weanling rats in two studies did not induce measurable histological or biochemical adverse effects. No significant Fe was detected in the submucosa of the gastrointestinal tract or lymphatic tissues, suggesting that the nanosized Fe is absorbed through usual non-heme Fe absorption pathways. Thus, these novel compounds show promise as food fortificants or supplements.
最近的研究表明,铁的纳米结构氧化物和磷酸盐以及原子混合的 Fe/Zn 可能在营养应用中有用。这些化合物可能比现有的强化剂(如硫酸亚铁 (FeSO(4))、NaFeEDTA 和电解铁)具有几个优势。由于它们的溶解度非常低,并且在中性 pH 下形成软团聚体的微米大小,以及它们的天然浅色,它们在难以强化的食物中往往反应性较低,因此具有更好的感官性能。在胃酸条件下,软团聚体破裂,由于其极高的表面积,Fe 化合物迅速且完全溶解。这导致体外溶解度和体内生物利用度与 FeSO(4)相当。掺杂 Mg 和/或 Ca 可能会增加溶解度并通过减轻颜色来改善感官特性。在两项研究中,将纳米结构化合物以 150-400 µg Fe 天(-1)的剂量喂养 15 天的断奶大鼠,没有引起可测量的组织学或生化不良反应。在胃肠道的黏膜下层或淋巴组织中未检测到显著的 Fe,这表明纳米 Fe 是通过通常的非血红素 Fe 吸收途径吸收的。因此,这些新型化合物有望成为食品强化剂或补充剂。
