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Neurogenesis in the adult brain, its regulation and possible functions
Pištíková, Adéla ; Stuchlík, Aleš (advisor) ; Jiruška, Přemysl (referee)
In this thesis I examine neurogenesis in the adult brain. Neurogenesis takes place in two main neurogenic areas. One area is located at the side of the forebrain ventricle and the other in dentate gyrus of the hippocampus. The forebrain ventricle neurogenesis is important for olfactory discrimination and olfactory memory. In the hippocampus, its function is unclear, but there are several hypotheses about its possible significance. We assume it might function in pattern separation and also be involvedin preventing interference between memory traces. The last chapter I dedicate to the positive and negative regulation of neurogenesis. The manipulations enhancing neurogenesis include voluntary physical activity, enriched environment and SSRI antidepressants. The negative impact on neurogenesis is exerted among other factors by stress, irradiation and a cytostatic Temodal, which is used methodologiclly to block neurogenesis.
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Otimization of a dose of temozolomide for efficient reduction of adult neurogenesis in the laboratory rat
Pištíková, Adéla ; Stuchlík, Aleš (advisor) ; Jiruška, Přemysl (referee)
The goal of this study is to find an optimal dose of cytostatic Temozolomide (TMZ) for Long-Evans strain of rats. This dose should reduce neurogeneis while having a minimal pernicious health side-effects. Temozolomide is newly used to suppress neurogenesis but similarly to any other cytostatic has an effect on all dividing cells in an organism. This can affect health of an animal. Contrary to the mice, there was no systematic attempt to establish optimal dose. In our experiment rats were divided into four groups - one control group and three treatment groups which received different doses of temozolomide (10, 25, 40 mg/kg of TMZ). To detect level of neurogenesis cells were labeled by bromodeoxyuridine. During the experiment blood element counts were assessed, sensorimotoric tests were conducted, and weight increment was monitored. The results indicate that dose of 10mg/kg is adequate as it reduces neurogenesis by 64% compared to the control group and does not significantly differ from higher doses. In this group weight increment is comparable with the control group, while in the higher doses of TMZ weight increment is significantly lower. Effect of myelosupression is same for all treatment groups.
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Otimization of a dose of temozolomide for efficient reduction of adult neurogenesis in the laboratory rat
Pištíková, Adéla ; Stuchlík, Aleš (advisor) ; Jiruška, Přemysl (referee)
The goal of this study is to find an optimal dose of cytostatic Temozolomide (TMZ) for Long-Evans strain of rats. This dose should reduce neurogeneis while having a minimal pernicious health side-effects. Temozolomide is newly used to suppress neurogenesis but similarly to any other cytostatic has an effect on all dividing cells in an organism. This can affect health of an animal. Contrary to the mice, there was no systematic attempt to establish optimal dose. In our experiment rats were divided into four groups - one control group and three treatment groups which received different doses of temozolomide (10, 25, 40 mg/kg of TMZ). To detect level of neurogenesis cells were labeled by bromodeoxyuridine. During the experiment blood element counts were assessed, sensorimotoric tests were conducted, and weight increment was monitored. The results indicate that dose of 10mg/kg is adequate as it reduces neurogenesis by 64% compared to the control group and does not significantly differ from higher doses. In this group weight increment is comparable with the control group, while in the higher doses of TMZ weight increment is significantly lower. Effect of myelosupression is same for all treatment groups.
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Neurogenesis in the adult brain, its regulation and possible functions
Pištíková, Adéla ; Stuchlík, Aleš (advisor) ; Jiruška, Přemysl (referee)
In this thesis I examine neurogenesis in the adult brain. Neurogenesis takes place in two main neurogenic areas. One area is located at the side of the forebrain ventricle and the other in dentate gyrus of the hippocampus. The forebrain ventricle neurogenesis is important for olfactory discrimination and olfactory memory. In the hippocampus, its function is unclear, but there are several hypotheses about its possible significance. We assume it might function in pattern separation and also be involvedin preventing interference between memory traces. The last chapter I dedicate to the positive and negative regulation of neurogenesis. The manipulations enhancing neurogenesis include voluntary physical activity, enriched environment and SSRI antidepressants. The negative impact on neurogenesis is exerted among other factors by stress, irradiation and a cytostatic Temodal, which is used methodologiclly to block neurogenesis.
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