氧化锌纳米颗粒强化饼干对缺锌大鼠的营养补充作用

S. A. Raya, M. Hassan, K. Farroh, Shimaa A Hashim, T. Salaheldin
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引用次数: 14

摘要

锌缺乏症是一种全球性的营养失调,影响到大多数健康人,而不是那些患有慢性疾病的人,影响到世界上约三分之一的人,从而导致临床表现。这项工作代表了一种新的方式,通过锌纳米颗粒代替传统的散装形式,用于制备锌强化饼干,作为缺锌病大鼠的营养补充剂,从而提高肠道对锌的吸收能力和生物利用度。采用共沉淀法合成了25±5 nm尺寸的氧化锌纳米颗粒,并用透射电镜和x射线衍射对其进行了表征。采用缺锌饲料喂养5周,建立缺锌大鼠模型。制备了三种浓度(13.5 ppm、27 ppm和54 ppm)的纳米氧化锌强化饼干,并与散装形式的氧化锌进行了比较。结果表明,纳米氧化锌处理组的身体生长速度、食欲和毛发生长迅速增强,这可能是由于纳米氧化锌比常规的体积较大的氧化锌体积小,提高了肠道吸收能力和生物利用度。应用纳米氧化锌浓度的毒理学评价未产生任何明显毒性,在应用剂量范围内无法确定致死剂量(LD50),在设计的实验期内无死亡。组织病理学检查支持纳米氧化锌制剂的能力,以取代传统的散装形式的口服锌补充剂,快速和有效的恢复,没有显著的肝脏,肾脏和睾丸的组织病理学异常。目前的工作建议剂量为13.5 ppm的纳米锌强化饼干用于治疗轻度缺锌,剂量为27 ppm用于治疗更严重的缺锌。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Zinc Oxide Nanoparticles Fortified Biscuits as a Nutritional Supplement for Zinc Deficient Rats
Zinc deficiency is a global nutritional disorder affecting majority of healthy people rather than those suffering from chronic diseases, affects about one third of people around the worldand thereby causing clinical manifestations. This work represents new modality to increase the intestinal absorptivity and bioavailability of zinc from the diet by replacing traditional bulk form by zinc nanoparticles to be used in preparations of zinc fortified biscuits as a nutritional supplement for zinc deficiency disease in rats. Zinc oxide nanoparticles of 25 ± 5 nm sizes were synthesized by co-precipitation approach and characterized by Transmission Electron Microscope and X-Ray Diffraction. Zinc deficient rats model was performed by nourishing on zinc deficient diet for five weeks to acquire zinc deficiency. Three levels nano zinc oxide Fortified Biscuits (13.5 ppm, 27 ppm and 54 ppm) were prepared to be compared with bulk form of zinc oxide. Results showed that, rapid enhancement of body growth rate, appetite and hair growth was recorded for nano zinc treated groups that might be attributed to the increased intestinal absorptivity and bioavailability of the nano scaled zinc oxide as a result of its ultra-small sizes compared to the regular bulky zinc oxide form. The toxicological evaluation of the applied nano zinc oxide concentrations didn’t cause any apparent toxicity and the lethal dose (LD50) cannot be established within the applied doses, where no mortality during the designed experiment period. Histopathological examination support the capability of the nano zinc oxide formulation to replace the traditional bulk forms of oral zinc supplements for rapid and efficient recovery with no significant histopathological abnormalities in Liver, Kidneys and Testis. The present work recommend dose of 13.5 ppm nano zinc fortified biscuits for managing mild zinc deficiency and the dose of 27 ppm for more sever conditions.
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