Mitochondrial Ca²⁺ uptake is essential for synaptic plasticity in pain

Keyphrases

• Synaptic Plasticity 100%
• Ca2+ 100%
• Mitochondrial Ca2+ Uptake 100%
• Long-term Potentiation 50%
• Hyperalgesia 50%
• N-methyl-D-aspartate Receptor (NMDAR) 25%
• Reactive Oxygen Species 25%
• Spinal Cord 25%
• Mitochondria 25%
• Cell Signaling Pathways 25%
• Persistent Pain 25%
• Reactive Oxygen Species Production 25%
• Chronic Pain 25%
• Receptor Activation 25%
• Chronic Pain Treatment 25%
• Cell Signaling 25%
• Cytosolic Free Ca2+ 25%
• Mitochondrial Superoxide 25%
• Mitochondrium 25%

Medicine and Dentistry

• Calcium Ion 100%
• Nerve Cell Plasticity 100%
• Reactive Oxygen Species 22%
• Chronic Pain 22%
• Hyperpathia 22%
• Long-Term Potentiation 22%
• Signal Transduction 11%
• Persistent Pain 11%
• Superoxide 11%
• Mitochondrion 11%
• Signal Transduction Pathway 11%
• Biological Product 11%
• NMDA Receptor 11%