Biochemical changes caused by Zinc oxide Nanoparticles synthesized using Ficus thonningii extract in induced diabetic Wistar Albino Rats

IF 3 Q2 OPERATIONS RESEARCH & MANAGEMENT SCIENCE
Abubakar A.L, Umar H, Yunusa R.D., Alhaji M.M., Abdullahi A.A., Usaini M.U.
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引用次数: 0

Abstract

Green synthesis of nanoparticles known as the synthesis of nanoparticles using biosynthetic methods involving naturally reducing agents such as polysaccharides, biological microorganism such as bacteria and fungus or plants extract. The synthesis of nanoparticles by the use of biological methods have reached a colossal signification above physical and chemical procedures, this is due to the use of innocuous, biocompatible, and ecologically-sound substrates and remarkably uncomplicated synthetic processes at encompassing conditions. In this research, the synthesis, characterization and the determination of the antibacterial activity of Zinc oxide Nanoparticles (ZnO NPs) was ascertained using stem bark extract of Ficus thonningii (Blume) as a stabilizing agent. However, the anti-diabetic activity and some biochemical changes caused by the synthesized ZnO NPs on alloxan-induced diabetic Wistar Rats were also determined. ZnO NPs were synthesized using biological method at different concentrations of ZnO solution (1mM, 2mM, 3mM and 4mM), these NPs were characterized using UV-visible spectroscopy, FTIR and SEM. Wistar rats weight 185 ± 5g were grouped into nine (9) groups (A, B, C, D, E, F, G, and I). Group A served as normal control which was given only feed and water, group B, C, D and E, were induce and treated with 1mM, 2mM, 3mM and 4mM ZnONPs respectively, then F and G were induced and treated with aqueous extract and ethanolic extract while H was induced and treated with Glibenclamide (standard drug for diabetes) by gavage method and finally I was induced and untreated which served as diabetic control. The results showed that ZnO NPs were synthesized with the indication of the change in colour from yellow to dark brown colour. The UV-visible spectroscopy was taken at range between 200nm to 700nm which displayed different peaks at the range of 209nm to 383nm. However, the FTIR showed the existence of various functional groups such as C=C stretch, C≡C stretch and Alcohol OH stretch representing the bioactive compounds such as phenol, amine and many others. The Nanoparticles were analyzed with SEM to examine the morphology of the Nanoparticles. The diabetic induced rats revealed significant decrease in fasting blood glucose after treatment compared with the diabetic untreated rats, the doses were effective when compared with Glibenclamide treated rats. The levels of serum Alkaline phosphatase, Alanine Amino transferase, Albumin, Globulin, Bilirubin, Total Protein, Urea, Creatinine and Electrolytes concentrations displayed no significant increase relative to diabetic control (p < 0.05; n ≥ 5).
梧桐提取物合成氧化锌纳米颗粒对糖尿病大鼠生化变化的影响
绿色纳米粒子合成是指利用生物合成方法合成纳米粒子,涉及天然还原剂如多糖、生物微生物如细菌和真菌或植物提取物等。利用生物方法合成纳米粒子已经达到了超过物理和化学方法的巨大意义,这是由于使用了无害、生物相容性和生态无害的底物,以及在环境条件下非常简单的合成过程。本文以无花果茎皮提取物为稳定剂,研究了氧化锌纳米颗粒(ZnO NPs)的合成、表征和抑菌活性的测定。同时还测定了合成的氧化锌NPs对四氧嘧啶诱导的糖尿病Wistar大鼠的抗糖尿病活性和一些生化变化。采用生物法制备了不同浓度氧化锌溶液(1mM、2mM、3mM和4mM)下的ZnO NPs,并利用紫外可见光谱、FTIR和SEM对其进行了表征。体重185±5g的Wistar大鼠分为A、B、C、D、E、F、G、I 9组,A组为正常对照组,只给予饲料和水,B、C、D、E组分别诱导并给予1mM、2mM、3mM、4mM的ZnONPs;然后分别用水提物和乙醇提物诱导F和G,用格列本脲(糖尿病标准药物)灌胃法诱导H,最后用诱导和不处理I作为糖尿病对照组。结果表明,合成的ZnO纳米粒子的颜色由黄色变为深棕色。紫外可见光谱在200nm ~ 700nm范围内进行,在209nm ~ 383nm范围内出现不同的峰。然而,FTIR显示存在各种官能团,如C=C拉伸,C≡C拉伸和醇OH拉伸,代表生物活性化合物,如苯酚,胺和许多其他。采用扫描电镜对纳米颗粒进行形貌分析。治疗后,糖尿病大鼠的空腹血糖较未治疗大鼠明显降低,剂量与格列本脲治疗大鼠相比有效。血清碱性磷酸酶、丙氨酸氨基转移酶、白蛋白、球蛋白、胆红素、总蛋白、尿素、肌酐和电解质浓度与糖尿病对照组相比均无显著升高(p < 0.05);N≥5)。
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来源期刊
CiteScore
8.50
自引率
33.30%
发文量
40
期刊介绍: International Journal of Management Science and Engineering Management (IJMSEM) is a peer-reviewed quarterly journal that provides an international forum for researchers and practitioners of management science and engineering management. The journal focuses on identifying problems in the field, and using innovative management theories and new management methods to provide solutions. IJMSEM is committed to providing a platform for researchers and practitioners of management science and engineering management to share experiences and communicate ideas. Articles published in IJMSEM contain fresh information and approaches. They provide key information that will contribute to new scientific inquiries and improve competency, efficiency, and productivity in the field. IJMSEM focuses on the following: 1. identifying Management Science problems in engineering; 2. using management theory and methods to solve above problems innovatively and effectively; 3. developing new management theory and method to the newly emerged management issues in engineering; IJMSEM prefers papers with practical background, clear problem description, understandable physical and mathematical model, physical model with practical significance and theoretical framework, operable algorithm and successful practical applications. IJMSEM also takes into account management papers of original contributions in one or several aspects of these elements.
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