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Effect of caloric restriction on neuroplasticity
Sonina, Alisa ; Málková, Petra (advisor) ; Kolář, David (referee)
Calorie restriction has been shown to have a wide range of beneficial effects on health and longevity, although its effects on brain function are not as well known. This paper reviews the current state of research on the effects of calorie restriction on neuroplasticity, including studies examining the molecular, structural, and behavioral effects of dietary restriction in animal and human models. Overall, the evidence suggests that caloric restriction promotes neuroplasticity. However, further research is needed to fully understand the mechanisms underlying these effects and to determine the optimal duration and intensity of caloric restriction. Key words: Caloric restriction, neuroplasticity, diet, cognition, neurogenesis, metabolism
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The effect of physical activity on human psyche and cognitive functions
Štětka, Martin ; Hora, Martin (advisor) ; Novák, Jan (referee)
In modern society, absence of physical activity is often related not only to physical problems (e.g. the development of cardiovascular disease, diabetes, cancer, etc.) but also to mental problems (e.g. depression, anxiety and mood changes) and cognitive problems (e.g. learning, memory and motor problems), which are associated with the development of neurodegenerative diseases. Physical activity appears to be an effective regulator of proper brain ageing and may serve as a preventive measure against the development of many diseases. Individuals who actively engage in physical activity show a slower rate of brain atrophy in advanced age. In addition to regulating proper aging, physical activity can act as a supportive therapeutic tool in the treatment of various psychological problems. This bachelor thesis also discusses neurogenesis, neurodegeneration, evolutionary perspective, types of individual movements, change in mental status after induction of physical activity and development of cognitive abilities of individuals. Keywords: neurogenesis, neurodegeneration, aerobic exercise, anaerobic exercise, depression, anxiety, learning, memory
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Induction of neurogenesis and gliogenesis after ischemic injury of CNS
Filipová, Marcela ; Anděrová, Miroslava (advisor) ; Moravec, Jan (referee)
Ischemic injury (stroke) is one of the most common causes of death and disability in humans. Discovery of adult neurogenesis and possibilities to induce neurogenesis by cytokines brought new approaches and hopes in treating the ischemic lesion in future. The aim of this thesis is to describe cellular and molecular mechanisms of neurogenesis, mainly those discovered within last ten years. The first part describes generation of new neurons in the brain under physiological conditions, which is localized in the dentate gyrus of the hippocampus and in the subventricular zone of the lateral ventricles (i.e. in principal neurogenic regions). The second part describes animal models used for studying ischemic injury in rodents and moreover, it focuses on patophysiology of ischemic brain injury, which is accompanied by astrocyte and microglia activation. Further, the ischemia-induced neurogenesis is described in these two major neurogenic regions. Also the important role of NG2 glial cells in central nervous system (CNS) regeneration is pointed out. According to recent findings NG2 glia that are present in all regions of CNS might serve as a potential source of cells for directed differentiation into oligodendrocytes, astrocytes and even neurons during CNS repair/regeneration. In the last part of this work,...
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Adult neurogenesis in the hippocampus and spatial navigation
Dostálová, Magdalena ; Stuchlík, Aleš (advisor) ; Jiruška, Přemysl (referee)
Hundreds to thousands of new granule neurons are born every day in the hippocampus within the whole life. Inspite of intensive research of the last decades, their function remains unclear. Their participation in spatial memory and the ability of orientation is assumed. Results from behavioral tests like the Morris water maze, the radial maze and many other testing tasks, are often contradictory. Nevertheless, it is highly probable that neurogenesis plays a role in pattern separation and long-term relational memory. Further studies and especially reliable methods of ablation and detection are required for deeper insight into this issue.
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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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Functions of the adult neurogenesis
Šejnová, Gabriela ; Stuchlík, Aleš (advisor) ; Melkes, Barbora (referee)
Neurogenesis in adult mammals was first discovered in the second half of the 20th century and its mechanisms, regulation and possible functions have been researched eversince. Scientists have so far been able to describe the process of neuronal development as well as some possible influences. However, the role of this phenomenon is still being discussed. This thesis is focused on neurogenesis in the dentate gyrus in hippocampus, a pair structure located in the central part of the temporal lobe. The main aim is to describe the recent findings and research models as well as the assumed functions. The most recent theories find the role of hippocampal neurogenesis in pattern separation, memory resolution, contextual memory or memory consolidation. These hypotheses are quite variable due to the broad range of research methods and their interpretations, however, none of them seems to disprove the others. Key words: neurogenesis, functions, behavior, hippocampus, learning
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The effect of morphine on neurogenesis and neurodegeneration in rat brain
Rydzyková, Tereza ; Novotný, Jiří (advisor) ; Vodička, Martin (referee)
Morfin is a clinically used analgesic drug but also an abusive drug. It has an impact on a wide range of CNS regions (nucleus accumbens, ventral tegmentum, hippocampus, etc.) and affects their functions, e.g. cognitive functions or anxiety. Although the results of so far published studies are often contradictory, the effects on cell death and proliferation in the CNS have been demonstrated. In this work, we focused on how chronic administration of morphine and subsequent withdrawal of this drug affects neurogenesis and neurodegeneration in the rat brain and how it affects some markers involved in the addiction and post-drug-induced condition. We have succeeded in introducing immunohistochemical markers for monitoring neurogenesis (bromodeoxyuridine and doublecortin) and neurodegeneration (Fluoro-Jade C) and for detection of selected neuromodulatory peptides (cholecystokinin and neuropeptide Y). We have found that morphine may influence the process of neurogenesis and neurodegeneration, but its effects differ in different CNS structures (nucleus accumbens, hippocampus, and amygdala). Key words: Morphine, brain, rat, withdrawal syndrom, neurogenesis, neurodegeneration
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Functions of the adult neurogenesis
Šejnová, Gabriela ; Stuchlík, Aleš (advisor) ; Melkes, Barbora (referee)
Neurogenesis in adult mammals was first discovered in the second half of the 20th century and its mechanisms, regulation and possible functions have been researched eversince. Scientists have so far been able to describe the process of neuronal development as well as some possible influences. However, the role of this phenomenon is still being discussed. This thesis is focused on neurogenesis in the dentate gyrus in hippocampus, a pair structure located in the central part of the temporal lobe. The main aim is to describe the recent findings and research models as well as the assumed functions. The most recent theories find the role of hippocampal neurogenesis in pattern separation, memory resolution, contextual memory or memory consolidation. These hypotheses are quite variable due to the broad range of research methods and their interpretations, however, none of them seems to disprove the others. Key words: neurogenesis, functions, behavior, hippocampus, learning
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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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