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Firing Rate And Irregularity Recorded From 16 In Vitro Neurons By

Balanced Excitatory And Inhibitory Inputs To Cortical Neurons Decouple

Balanced Excitatory And Inhibitory Inputs To Cortical Neurons Decouple

On The Distribution Of Firing Rates In Networks Of Cortical Neurons

On The Distribution Of Firing Rates In Networks Of Cortical Neurons

Measuring The Firing Rate Of High Resistance Neurons With Cell Attached

Measuring The Firing Rate Of High Resistance Neurons With Cell Attached

Measuring The Firing Rate Of High Resistance Neurons With Cell Attached

Measuring The Firing Rate Of High Resistance Neurons With Cell Attached

Balanced Excitatory And Inhibitory Inputs To Cortical Neurons Decouple

Balanced Excitatory And Inhibitory Inputs To Cortical Neurons Decouple

Neuronal Firing Rates Diverge During Rem And Homogenize During Non Rem

Neuronal Firing Rates Diverge During Rem And Homogenize During Non Rem

Neuronal Firing Rates Diverge During Rem And Homogenize During Non Rem

Neuronal Firing Rates Diverge During Rem And Homogenize During Non Rem

On The Distribution Of Firing Rates In Networks Of Cortical Neurons

On The Distribution Of Firing Rates In Networks Of Cortical Neurons

Increase In Sodium Conductance Decreases Firing Rate And Gain In Model

Increase In Sodium Conductance Decreases Firing Rate And Gain In Model

Balanced Excitatory And Inhibitory Inputs To Cortical Neurons Decouple

Balanced Excitatory And Inhibitory Inputs To Cortical Neurons Decouple

Neuronal Firing Rates Diverge During Rem And Homogenize During Non Rem

Neuronal Firing Rates Diverge During Rem And Homogenize During Non Rem

The Core Clock Gene Per1 Phases Molecular And Electrical Circadian

The Core Clock Gene Per1 Phases Molecular And Electrical Circadian

Balanced Excitatory And Inhibitory Inputs To Cortical Neurons Decouple

Balanced Excitatory And Inhibitory Inputs To Cortical Neurons Decouple

Afterhyperpolarization Regulates Firing Rate In Neurons Of The

Afterhyperpolarization Regulates Firing Rate In Neurons Of The

Frontiers Modulation Of Functional Connectivity Between Dopamine

Frontiers Modulation Of Functional Connectivity Between Dopamine

Afterhyperpolarization Regulates Firing Rate In Neurons Of The

Afterhyperpolarization Regulates Firing Rate In Neurons Of The

Tonic Firing Rate Controls Dendritic Ca2 Signaling And Synaptic Gain

Tonic Firing Rate Controls Dendritic Ca2 Signaling And Synaptic Gain

Tonic Firing Rate Controls Dendritic Ca2 Signaling And Synaptic Gain

Tonic Firing Rate Controls Dendritic Ca2 Signaling And Synaptic Gain

Figure 1 Single Dose Of Morphine Produced A Prolonged Effect On

Figure 1 Single Dose Of Morphine Produced A Prolonged Effect On

Increase In Sodium Conductance Decreases Firing Rate And Gain In Model

Increase In Sodium Conductance Decreases Firing Rate And Gain In Model

Differential Regulation Of Action Potential Shape And Burst Frequency

Differential Regulation Of Action Potential Shape And Burst Frequency

Resting State Neural Firing Rate Is Linked To Cardiac Cycle Duration In

Resting State Neural Firing Rate Is Linked To Cardiac Cycle Duration In

Frontiers Neuronal Population Activity In Spinal Motor Circuits

Frontiers Neuronal Population Activity In Spinal Motor Circuits

Frontiers Spontaneous And Evoked Activity From Murine Ventral Horn

Frontiers Spontaneous And Evoked Activity From Murine Ventral Horn

Frontiers Short And Long Term Attentional Firing Rates Can Be

Frontiers Short And Long Term Attentional Firing Rates Can Be

Information Capacity And Robustness Of Encoding In The Medial

Information Capacity And Robustness Of Encoding In The Medial

Tonic Firing Rate Controls Dendritic Ca2 Signaling And Synaptic Gain

Tonic Firing Rate Controls Dendritic Ca2 Signaling And Synaptic Gain

Firing Rate And Irregularity Recorded From 16 In Vitro Neurons By

Firing Rate And Irregularity Recorded From 16 In Vitro Neurons By

Center For Brain Research

Center For Brain Research

Dissociation Between Sustained Single Neuron Spiking And Transient β

Dissociation Between Sustained Single Neuron Spiking And Transient β

Slow Adaptation In Fast Spiking Neurons Of Visual Cortex Journal Of

Slow Adaptation In Fast Spiking Neurons Of Visual Cortex Journal Of