Oxygen Glucose Deprivation in Rat Hippocampal Slice Cultures Results in Alterations in Carnitine Homeostasis and Mitochondrial Dysfunction

Keyphrases

• Mitochondrial Dysfunction 100%
• Homeostasis 100%
• Oxygen-glucose Deprivation 100%
• L-carnitine 100%
• Rat Hippocampal Slices 100%
• Culture Results 100%
• Hippocampal Slice Culture 100%
• Free Carnitine 57%
• Carnitine Supplementation 57%
• Hypoxia-ischemia 42%
• Synaptic Transmission 28%
• Neonatal Rats 28%
• Carnitine Metabolism 28%
• Protein Level 14%
• Apoptotic Cell Death 14%
• Molecular Mechanism 14%
• Depolarization 14%
• Hippocampus 14%
• Structural Integrity 14%
• Reperfusion 14%
• Neuroprotective Effect 14%
• Cell Viability 14%
• Neuroprotective 14%
• Mitochondrial Membrane Potential 14%
• Hypoxia Response 14%
• Mitochondria-associated Membranes 14%
• Inner Mitochondrial Membrane 14%
• Mitochondria-mediated Apoptosis 14%
• Carnitine Palmitoyltransferase 2 14%
• Carnitine Palmitoyltransferase 1A (CPT1A) 14%
• Pathological Response 14%
• Neonatal Brain 14%
• Long-chain Fatty Acids 14%
• Metabolic Viability 14%
• CPT1 14%
• CPT2 14%
• Slice Culture 14%
• Mitochondrial Metabolism 14%
• β-oxidation 14%

Biochemistry, Genetics and Molecular Biology

• Homeostasis 100%
• Slice Culture 100%
• Metabolic Pathway 50%
• Synaptic Transmission 50%
• Enzyme 25%
• Reperfusion 25%
• Mitochondrial Respiration 25%
• Mitochondrial Membrane Potential 25%
• Cell Viability 25%
• Inner Mitochondrial Membrane 25%
• Beta Oxidation 25%
• Apoptosis 25%
• Carnitine Palmitoyltransferase I 25%

Neuroscience

• Carnitine 100%
• Ischemia 20%
• Metabolic Pathway 13%
• Neuroprotective Agent 13%
• Synaptic Transmission 13%
• Acylcarnitine 13%
• Hippocampus 6%
• Cell Viability 6%
• Mitochondrial Membrane Potential 6%
• Apoptosis 6%
• Mitochondrial Membrane 6%
• Carnitine Palmitoyltransferase I 6%
• Mitochondrial Respiration 6%
• Long Chain Fatty Acid 6%