Mathematical analysis of depolarization block mediated by slow inactivation of fast sodium channels in midbrain dopamine neurons

Keyphrases

• Midbrain Dopaminergic Neurons 100%
• Depolarization Block 100%
• Mathematical Analysis 100%
• Sodium Channel 100%
• Slow Inactivation 100%
• Slow Component 44%
• Dopamine Neurons 22%
• Depolarization 22%
• Firing Rate 22%
• Window Current 22%
• Sodium 11%
• N-methyl-D-aspartate Receptor (NMDAR) 11%
• Current-voltage Characteristics 11%
• Relative Contribution 11%
• Voltage Range 11%
• Sodium Current 11%
• Qualitative Features 11%
• Reduced Model 11%
• Steady State Current 11%
• Freely Moving Rats 11%
• Slow Time 11%
• AMPA Receptor (AMPAR) 11%
• Multiple Spike 11%
• N-shaped 11%
• Interspike Interval 11%
• Spike Threshold 11%

Neuroscience

• In Vitro 100%
• Sodium Channel 100%
• Midbrain 100%
• Firing Rate 100%
• NMDA Receptor 50%
• AMPA Receptor 50%
• Sodium Current 50%