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  Background & objectives: In recent decades, nanotechnology has been developing in medical field, and most of the nanoparticles are highly valuable in hygienic care. Vulvovaginitis is an infectious disease giving rise to problem in genital tract and Candida albicans is the main cause of Vulvovaginitis.

  Methods: In this study, laboratory effect of gold nanoparticles has been investigated on Candida albicans isolates obtained from patients with Vulvovaginitis. Candida spp. isolates were obtained from 200 patients referring to medical diagnostic laboratory in Isfahan city during 2013, and identified using mycological methods including germ tube, clamydoconidia formation, and culturing on chrom agar media. Antifungal effect of gold nanoparticles was evaluated in concentration of 100, 50, 25, and 12.5 ppm on Candida isolates using well diffusion and microdilution methods. Fluconazole was used as a positive control and results were analyzed by SPSS15 software using Mann-Whitney, Kruskal-Wallis and average differences analysis tests.

  Results: The most averages of clear zone diameter for gold nanoparticle were 18, 15, 12 millimeter, respectively. Minimum inhibitory and fungicidal
concentration of gold nanoparticle was determined 6.25, 12.5 ppm and for fluconazole were 50.25±19.48 and 100.50±38.96, respectively. Based on obtained results antifungal activity of gold nanoparticle was dependent to concentration.

  Conclusion: In current study, inhibitory effect of gold nanoparticles was evaluated against microorganism. Although the laboratories findings are promising, more investigation should be conducted for therapeutic standardization.

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Background & Objectives: Maintain of fixed amount of glucose in blood has always been valuable. Especially in diabetic patients it is important to determine accurate amount of it. In this study we are trying to find a method to determination of the amount of serum glucose.

Methods: First a biosensor was prepared using carbon paste electrode modified with Copper Oxide nanoparticles for determination of serum glucose. The synthesized Copper Oxide nanoparticles were studied by using a variety of chemical spectrum UV-Vis, XRD, SEM and TEM. XRD confirmed that our synthesized are Copper Oxide nanoparticles. By measuring of the oxidation currents in the several levels of glucose, the accuracy and efficiency of biosensor was studied.

Results: Based on a increase of the electrocatalytic response of the oxidized form of GOD to dissolved oxygen, the proposed biosensor exhibits a linear response to glucose concentrations ranging from 0 to 15 mM with a detection limit (defined as the concentration that could be detected at the signal-to-noise ratio of 3) of 9 �M at an applied potential of 0.44 V which has better biosensing properties than those from other biosensors. This biosensor retained 89% of its initial response after 30 days storage at pH=7.

Conclusion: Carbon paste electrode and Copper Oxide nanoparticles offer excellent catalytic activity toward hydrogen peroxide generation in enzymatic reaction between glucose oxidase and glucose, which would enable sensitive determination of glucose. This biosensor exhibited good stability, reproducibility and low interferences. It has been used to diagnose diabetes very fast and sensitively and to determine the glucose concentrations in serum samples with satisfactory results.

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Background & objectives: One of the most important diabetes complications is chronic renal failure. This disorder is one of the most important progressive renal problems that is closely associated with high mortality rate in diabetic patients. The purpose of this study was to evaluate the effect of conjugated blackcurrant extract and  zinc oxide nanoparticles on histopathologic damages of kidney tissue in diabetic rats.
Methods: A total of thirty adult Wistar rats were used and they were randomly divided into the following six groups (n=5): control group; diabetic group (170 mg/kg alloxan); diabetic group treated with insulin (170 mg/kg alloxan & 10 U/kg insulin); diabetic group treated with ZnO nanoparticle (170 mg/kg alloxan & 8 mg/kg ZnO nanoparticle); diabetic group treated with extract (170 mg/kg alloxan & 150 mg/kg blackcurrant extract) and diabetic group treated with extract conjugated with ZnO nanoparticles (170 mg/kg alloxan & 8 mg/kg blackcurrant extract conjugated with ZnO nanoparticle). Diabetes mellitus was induced by intraperitoneal injection of alloxan monohydrate. Conjugated blackcurrant extract and ZnO nanoparticles were produced using green synthesis method. The tissues were stained with hematoxylin and eosin stain. Image J software was used for evaluation of histopathological changes.
Results: The comparison between groups treated with blackcurrant extract, ZnO nanoparticles and blackcurrant extract conjugated with ZnO nanoparticle showed that these compounds somewhat protect kidney tissue from diabetes damage . The highest protective effect was observed in diabetic group treated with ZnO nanoparticles conjugated with blackcurrant extract.
Conclusion: Our study, for the first time, showed that the conjugation of blackcurrant extract to ZnO nanoparticles can be effective in preventing renal- tissue damage in diabetic patient.

 
 

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Background & objectives: Research on intelligent nanomaterials that accelerate the process of nerve regeneration and treatment by different methods such as antioxidant effects, stimulation of nerve cell proliferation, modulation of the immune system and inflammatory factors is great importance. The aim of this study was to prepare cinnamon-coated cerium oxide nanoparticles and evaluate its antioxidant and cytotoxicity effects on PC12 cell line.
Methods: Cinnamon-coated cerium oxide nanoparticles were prepared and their structural properties were evaluated by transmission electron microscopy (TEM) and Fourier transform infrared spectroscopy (FTIR). To evaluate the antioxidant properties of the compounds, free radical trapping methods 2 and 2 diphenyl-1-picryl hydrazyl were used. Cell viability in the presence of compounds was measured by a toxicity test (MTT) [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide]. Data were analyzed by one-way analysis of variance and Tukey's post hoc test.
Results: FTIR spectra and TEM images showed the processing of nanoparticles with an average size of less than 100 nm with cinnamon coating on their surface. Also, the antioxidant capacity of cinnamon-coated cerium oxide nanoparticles was significantly higher (*p<0.038) than extracts and nanoparticles alone at similar concentrations. Evaluation the results of cytotoxicity showed that the lowest toxicity was observed in the cinnamon-coated cerium oxide nanoparticles group.
Conclusion: Results showed higher antioxidant properties and low cytotoxic effects of cinnamon-coated cerium oxide nanoparticles compared to other groups, which leads to better efficacy, proliferation, longer cell survival, its green synthesis and coverage by cinnamon

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Background& objectives: Renal ischemia-reperfusion (IR) damage occurs during renal transplantation in end-stage renal disease (ESRD) patients which activate immune responses. Inflammatory responses by increased levels of cytokines can lead to acute kidney injury (AKI) that contributes to the loss of renal grafts and graft dysfunction. The purpose of this study was to review the therapeutic effects of nanoparticles in AKI.
Methods: A comprehensive search strategy was identified relevant studies on AKI models, using the Scopus, PubMed and Google Scholar databases, from 2000 until 2020. The search strategy included keywords like ischemia-reperfusion and nanoparticles.
Results: Oxygen free radicals are produced during the reperfusion phase, which cause lipid peroxidation and promote tissue damage. Oxidative damage to DNA and proteins and lipid membrane peroxidation can cause cell death and apoptosis. Some strategies to reduce the tissue damage caused by ischemia-reperfusion are nanoscale materials. Antioxidant nanoparticles reduce oxidative stress in tissues. Also, they have flexibility in the delivery of therapeutic agents and drugs to the ischemic cells, and imaging of the ischemic regions at the molecular or cellular level.
Conclusion: This potential of antioxidant and anti-inflammatory nanoparticles in the diagnosis and treatment of renal ischemic regions is an innovation in the development of new therapies and a unique achievement in recent medical advances.