Farid Mohammadi Arvanagh scite author profile

Background and Aim:The vast applications of nanotechnology in various fields including medicine, brings about the necessity to investigate the in vivo side effects of these materials. On this basis, we investigated the potential anti-diabetic activity of nanoparticles (NPs) along with toxicological effects on liver and pancreas tissue. Materials and Methods:In this excremental research after preparation of ZnO nanoparticles and their characterization with SEM, EDX and TEM, 30 rats were studied in 6 groups of 5 each. The groups included 1-Healthy control 2-Diabetic control 3-Diabetic -Insulin (10 U/kg) 4-Diabetic -Cranberry (150 mg/kg) 5-Diabetic-ZnO (8 mg/kg) 6-Diabetic-ZnO + extract (8 mg/kg). Diabetes was induced with alloxan monohydrate via intraperitoneal injection (170 mg / kg). Rats were treated intraperitoneal for 16 days and every four days examined for blood glucose levels, at the end of the treatment period, the liver and pancreatic tissues were analyzed by hematoxylin-eosin staining. Data were analyzed using two-way ANOVA and Tukey post hoc tests in SPSS. Results:The analysis of nanoparticles revealed the capping of organic constituents on the surface of the biological nanoparticles. The assessment of serum samples displayed a significant decrease in blood glucose levels in the group that was treated by NPs prepared by extract when compared to that of the diabetic control group (p≤0/05). Histopathological analysis did not show any damages to the studied organs. Conclusion:The results obtained in the present study revealed that the bio-synthesized nanoparticles not only significantly decreased the blood glucose level of diabetic rats but also had no toxic effects on the liver and pancreas tissues at the concentrations used in this study.

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Anti-inflammatory and collagenation effects of zinc oxide-based nanocomposites biosynthesised withMentha longifolialeaf extract

Arvanagh

Masoumabad

Yangjeh

et al. 2023

J Wound Care

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Objective: The integration of nanomaterials and herbal medicine has led to the design of new nanocomposites, which are therapeutically more effective. The purpose of this study was to prepare different zinc oxide (ZnO)-based nanoparticles (NPs) via Mentha longifolia extract based on gauze linen fibre and study its effects on wound healing. Methods: The textural properties, morphology, thermal stability, purity, spectroscopic and phase structure of nanoparticles were investigated. Subsequently, male Wistar rats were subjected to wounds in six different treatment groups: Group I: control; group II: ZnO/W prepared in water (W); group III: ZnO/M synthesised with Mentha longifolia (M) extract; group IV: ZnO/copper(II) oxide (CuO)/M nanocomposite synthesised with M extract; group IV: treated with ZnO/silver (Ag)/M nanocomposite; group V: treated with ZnO/Ag/M nanocomposite; and finally, group VI: treated with ZnO/CuO/Ag/M nanocomposite. In all groups, the wounds were treated for 21 days with prepared samples. Every seven days, after measuring the decreasing rate of the wound size, tissue samples from each group were taken for histopathological analysis. The prepared tissue sections were assessed by haematoxylin and eosin staining for the formation of the epidermis, dermis and muscular tissue, and Masson's Trichrome staining for the formation of collagen fibres. Results: The results showed that the ZnO/CuO/Ag/M nanocomposite was a significantly more effective wound healing material in comparison with other samples (p<0.05). Conclusion: In this study, the integration of ZnO/CuO/Ag nanocomposites with secondary metabolites of Mentha longifolia gave rise to a superior combination, which could support different phases of wound healing via the regulation of cytokines and growth factors in the course of healing.

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Farid Mohammadi Arvanagh

Biologically‐synthesised ZnO/CuO/Ag nanocomposite using propolis extract and coated on the gauze for wound healing applications

Histopathological effects of zinc oxide nanoparticles prepared by Vaccinium arctostaphylos ethanolic fruit extract on liver and pancreas of diabetic rats

Anti-inflammatory and collagenation effects of zinc oxide-based nanocomposites biosynthesised withMentha longifolialeaf extract

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