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Energetic metabolism of heart during acut and chronic hypoxia
Kolář, David ; Žurmanová, Jitka (advisor) ; Sotáková, Dita (referee)
The heart is a highly oxidative tissue, which far exceeds the oxygen consumption of neurons. The centre of ATP production is therefore in oxidative phosphorylation, which is contributed to by different substrates (glucose, fatty acids and lactate) depending on metabolic conditions. A high proportion of mitochondria in heart tissue carries an increased risk of reactive oxygen species development in the possible disruption of mitochondrial metabolism. Oxygen radicals are generated primarily at complex I and III of the respiratory chain of mitochondria. They may perform a signalling role allowing the heart adaptation to hypoxia, but the high concentration leads to irreversible damage /of cellular structures. This thesis considers the energy metabolism of the heart under normoxic, hypoxic and ischemic conditions, with emphasis on the glucose and fatty acids uptake, and the control of oxidative phosphorylation.
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Antioxidant system in hypoxic heart
Sotáková, Dita ; Žurmanová, Jitka (advisor) ; Kalous, Martin (referee) ; Babula, Petr (referee)
The cardiovascular disease, particularly acute myocardial infarction, is the most common cause of death worldwide. It is well documented that adaptation to chronic hypoxia increases resistance to ischemia-reperfusion (I/R) injury in heart tissue. Reactive oxygen species (ROS) play an important signalling role by the activation of the protective pathways during I/R, although, the excess of ROS during reperfusion leads to cardiac tissue injury. As the cellular antioxidant system is responsible for the maintenance of redox homeostasis, the main aim of this thesis was to investigate the relationship between myocardial tolerance to I/R injury and regulation of main components of antioxidant systems, related transcription factors and their target genes in protective and non- protective regimens of chronic hypoxia. We found differences in cardioprotective phenotype in rats exposed to three regimens of chronic normobaric hypoxia (FiO2 0.1, 3 weeks). The adaptation to continual (CNH) and intermittent (CNH-8; 8 h/day) regimen of hypoxia increased myocardial resistance to I/R damage, whereas 1-hour daily interruption of hypoxic adaptation (INH-23) abolished cardioprotective effect and decreased the ratio of reduced and oxidized glutathione (GSH/GSSG). Both cardioprotective regimens significantly increased...
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Cardiac ischemic tolerance of hypertensive rats
Jelínek, Jan ; Neckář, Jan (advisor) ; Sotáková, Dita (referee)
The aim of this thesis is to summarize current knowledge about the influence of the ischemic- reperfusion injury at the myocard of hypertensive subjects. First part of this thesis is focused on the description of ischemia, reperfusion and changes in the myocardial metabolism during these processes. These changes in the myocardial metabolism are for example necrosis or apoptosis of the myocardial cells. The second part describes the currently known cardioprotective phenomena. This part also compares their effects. The signalization of preconditioning, the second window of preconditioning and the postconditioning are described here in more details. Third part is focused on the description of the risk factors connected to the ICHS and hypertension. It describes also classes of hypertension, clinical and experimental methods of hypertension treatment, description of the laboratory breeds of hypertensive rats. In the last part of this thesis I describe the influence of hypertension on the I-R injury in current laboratory studies. In the most studies spontaneously hypertensive rats (SHR) were used. As a normotensive controls Wistar-Kyoto rats were mostly used. For some other experiments transgenic genetic rats (TGR) were used. Powered by TCPDF (www.tcpdf.org)
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Antioxidant system in hypoxic heart
Sotáková, Dita ; Žurmanová, Jitka (advisor) ; Kalous, Martin (referee) ; Babula, Petr (referee)
The cardiovascular disease, particularly acute myocardial infarction, is the most common cause of death worldwide. It is well documented that adaptation to chronic hypoxia increases resistance to ischemia-reperfusion (I/R) injury in heart tissue. Reactive oxygen species (ROS) play an important signalling role by the activation of the protective pathways during I/R, although, the excess of ROS during reperfusion leads to cardiac tissue injury. As the cellular antioxidant system is responsible for the maintenance of redox homeostasis, the main aim of this thesis was to investigate the relationship between myocardial tolerance to I/R injury and regulation of main components of antioxidant systems, related transcription factors and their target genes in protective and non- protective regimens of chronic hypoxia. We found differences in cardioprotective phenotype in rats exposed to three regimens of chronic normobaric hypoxia (FiO2 0.1, 3 weeks). The adaptation to continual (CNH) and intermittent (CNH-8; 8 h/day) regimen of hypoxia increased myocardial resistance to I/R damage, whereas 1-hour daily interruption of hypoxic adaptation (INH-23) abolished cardioprotective effect and decreased the ratio of reduced and oxidized glutathione (GSH/GSSG). Both cardioprotective regimens significantly increased...
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Cardiac ischemic tolerance of hypertensive rats
Jelínek, Jan ; Neckář, Jan (advisor) ; Sotáková, Dita (referee)
The aim of this thesis is to summarize current knowledge about the influence of the ischemic- reperfusion injury at the myocard of hypertensive subjects. First part of this thesis is focused on the description of ischemia, reperfusion and changes in the myocardial metabolism during these processes. These changes in the myocardial metabolism are for example necrosis or apoptosis of the myocardial cells. The second part describes the currently known cardioprotective phenomena. This part also compares their effects. The signalization of preconditioning, the second window of preconditioning and the postconditioning are described here in more details. Third part is focused on the description of the risk factors connected to the ICHS and hypertension. It describes also classes of hypertension, clinical and experimental methods of hypertension treatment, description of the laboratory breeds of hypertensive rats. In the last part of this thesis I describe the influence of hypertension on the I-R injury in current laboratory studies. In the most studies spontaneously hypertensive rats (SHR) were used. As a normotensive controls Wistar-Kyoto rats were mostly used. For some other experiments transgenic genetic rats (TGR) were used. Powered by TCPDF (www.tcpdf.org)
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Energetic metabolism of heart during acut and chronic hypoxia
Kolář, David ; Žurmanová, Jitka (advisor) ; Sotáková, Dita (referee)
The heart is a highly oxidative tissue, which far exceeds the oxygen consumption of neurons. The centre of ATP production is therefore in oxidative phosphorylation, which is contributed to by different substrates (glucose, fatty acids and lactate) depending on metabolic conditions. A high proportion of mitochondria in heart tissue carries an increased risk of reactive oxygen species development in the possible disruption of mitochondrial metabolism. Oxygen radicals are generated primarily at complex I and III of the respiratory chain of mitochondria. They may perform a signalling role allowing the heart adaptation to hypoxia, but the high concentration leads to irreversible damage /of cellular structures. This thesis considers the energy metabolism of the heart under normoxic, hypoxic and ischemic conditions, with emphasis on the glucose and fatty acids uptake, and the control of oxidative phosphorylation.
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