Content of nitric oxide and copper in the olfactory bulbs of the rats brain after modeling of cerebral stroke and intranasal administration of mesenchymal stem cells

Андрианов, В. В.; Кульчицкий, В. А.; Яфарова, Г Г; Токальчик, Ю. П.; Alexandra, Zamaro; Базан, Л. В.; Bogodvid, Tatiana; Июдин, В. С.; Pashkevich, S. G.; Dosina, Margarita; Гайнутдинов, Х. Л.

doi:10.24884/1682-6655-2021-20-2-77-86

Cited by 2 publications

References 54 publications

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The Effects of Intranasal Implantation of Mesenchymal Stem Cells on Nitric Monoxide Levels in the Hippocampus, Control of Cognitive Functions, and Motor Activity in a Model of Cerebral Ischemia in Rats

et al. 2023

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Hypoxia occurs in situations of disbalancebetween metabolic needs and the supply of oxygen to organs and tissues of the body. In this regard, tissue hypoxia and ischemia are essential components of the pathogenesis of many diseases. One of the promising areas of research into the mechanisms of ischemia is attempting to weaken the negative effect of hypoxia and ischemia in the brain by using a variety of techniques that activate neuroprotective mechanisms. Here, we aimed to assess the dynamics of restoration of motor activity control in an experimental model of ischemic stroke in rats (cerebral ischemia -CI) after intranasal perineural implantation of mesenchymal stem cells into the receptive eld of the olfactory nerve.It was found that the perineural administration of MSCs to rats in the acute period of cerebral ischemia was accompanied by clear signs of recovery of cognitive and motor functions within 1 and 3 days after the operation. On the seventh day after ischemia modeling, rats with the introduction of MSCs had no distinctive features in the control of motor activity compared to the period before the operation in the same rats. In the hippocampus of rats after modeling ischemia, a signi cant decrease in the content of NO by about 50% relative to the initial level is observed after one day. In the hippocampus of rats in which ischemia was modelled with simultaneous intranasal administration of MSC, a signi cant decrease in NO content by 39% relative to the initial level was also observed after one day. The content of NO increases slightly, but the difference in the level of NO relative to ischemic rats was not signi cant. The copper content in the hippocampus in the rats of these two groups did not change. There was a tendency to increase the e ciency of the antioxidant system 1 day after ischemia in both studied groups, and this effect was more pronounced with intranasal administration of MSC.

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The Effects of Intranasal Implantation of Mesenchymal Stem Cells on Nitric Monoxide Levels in the Hippocampus, Control of Cognitive Functions, and Motor Activity in a Model of Cerebral Ischemia in Rats

et al. 2023

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The effects of intranasal implantation of mesenchymal stem cells on nitric monoxide levels in the hippocampus, control of cognitive functions and motor activity in a model of cerebral ischemia in rats

Yafarova

Tokalchik

Filipovich

et al. 2022

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Hypoxia occurs in situations of disbalancebetween metabolic needs and the supply of oxygen to organs and tissues of the body. In this regard, tissue hypoxia and ischemia are essential components of the pathogenesis of many diseases. One of the promising areas of research into the mechanisms of ischemia is attempting to weaken the negative effect of hypoxia and ischemia in the brain by using a variety of techniques that activate neuroprotective mechanisms. Here, we aimed to assess the dynamics of restoration of motor activity control in an experimental model of ischemic stroke in rats (cerebral ischemia – CI) after intranasal perineural implantation of mesenchymal stem cells into the receptive field of the olfactory nerve. It was found that the perineural administration of MSCs to rats in the acute period of cerebral ischemia was accompanied by clear signs of recovery of cognitive and motor functions within 1 and 3 days after the operation. On the seventh day after ischemia modeling, rats with the introduction of MSCs had no distinctive features in the control of motor activity compared to the period before the operation in the same rats. In the hippocampus of rats after modeling ischemia, a significant decrease in the content of NO by about 50% relative to the initial level is observed after one day. In the hippocampus of rats in which ischemia was modelled with simultaneous intranasal administration of MSC, a significant decrease in NO content by 39% relative to the initial level was also observed after one day. The content of NO increases slightly, but the difference in the level of NO relative to ischemic rats was not significant. The copper content in the hippocampus in the rats of these two groups did not change. There was a tendency to increase the efficiency of the antioxidant system 1 day after ischemia in both studied groups, and this effect was more pronounced with intranasal administration of MSC.

show abstract

Content of nitric oxide and copper in the olfactory bulbs of the rats brain after modeling of cerebral stroke and intranasal administration of mesenchymal stem cells

Cited by 2 publications

References 54 publications

The Effects of Intranasal Implantation of Mesenchymal Stem Cells on Nitric Monoxide Levels in the Hippocampus, Control of Cognitive Functions, and Motor Activity in a Model of Cerebral Ischemia in Rats

The Effects of Intranasal Implantation of Mesenchymal Stem Cells on Nitric Monoxide Levels in the Hippocampus, Control of Cognitive Functions, and Motor Activity in a Model of Cerebral Ischemia in Rats

The effects of intranasal implantation of mesenchymal stem cells on nitric monoxide levels in the hippocampus, control of cognitive functions and motor activity in a model of cerebral ischemia in rats

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