Nowadays, with the rapid developments in nanotechnology, there has been a significant increase in the usage of nanoparticles within the biomedical field. Nanoparticles are known as particles ranging in size between 1 and 100 nm. Especially, silver nanoparticles (AgNPs) have been extensively carried out biomedical are as because of their physicochemical, and biological therapeutic properties. Recent studies have shown that there are anti-fungal, anti-viral, anti-inflammatory, anti-angiogenic biological activities, especially anti-bacterial and anti-cancer features of silver nanoparticles. Also, the appropriate knowledge of these characteristics is crucial since this knowledge enhances their potential usage in many areas while decreasing their possible dangers for human and environment. Recent researches demonstrate that multifunctional cytotoxic biological activities of biosynthesized silver nanoparticles can be used as an anti-cancer agent. In this work, it is aimed to give a literature review of the studies on silver nanoparticles, synthesis techniques and their possible usages especially in cancer therapy.
The nephrotoxicity of amikacin (AK) was prevented with pentoxifylline (PTX) in a rat model. Rats were received a single injection of AK (1.2 g/kg, i.p.) with or without PTX pretreatment (25 mg/kg, orally). Renal morphology was investigated by light microscopy. Tissue samples and trunk blood were also obtained to determine renal malondialdehyde (MDA), blood urea nitrogen (BUN), and creatinine (Cr) levels. MDA production was found to be higher in AK group. PTX administration caused a significant decrease in MDA production. Morphological damage in rats given AK was severe in the kidney, whereas in rats given AK plus PTX, no histological changes occurred. It is concluded that PTX could be useful for reducing the nephrotoxic effects of AK.
Like several other anticancer drugs, methotrexate (MTX) causes side effects, such as neuropathic pain, hepatotoxicity, and nephrotoxicity. Abnormal production of reactive oxygen species has been suspected in the pathophysiology of MTX-induced hepatorenal toxicity. Therefore, the aim of this study was to investigate the probable protective role of vitamin C (Vit C) on oxidative stress induced by MTX in the liver and kidney tissues of rats. A total of 32 rats were randomly and equally divided into four groups. The first group served as the control group. The second group received a single dose of 20 mg/kg of MTX intraperitoneally. To demonstrate our hypothesis, the third and the fourth groups received 250 mg/kg of Vit C for 3 days by oral gavage, with or without MTX treatment. At the end of the study, the liver and kidney tissues of the rats were collected and examined using histology. Both the tissues were assayed for malondialdehyde concentration and superoxide dismutase (SOD), catalase (CAT), and glutathione peroxidase (GSH-Px) activities. In hepatic and renal tissues, lipid peroxidation levels were increased, whereas SOD, CAT, and GSH-Px levels were decreased by MTX. All parameters, including CAT levels in hepatic tissue, were significantly restored after the administration of Vit C for 3 days. Similar to the biochemical findings, evidence of oxidative damage was examined in both types of tissues by histopathological examination. From the results of this study, we were able to observe that Vit C administration modulates the antioxidant redox system and reduces the renal and hepatic oxidative stress induced by MTX. Vit C can ameliorate the toxic effect of MTX in liver and kidney tissues of rat.
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