Keyphrases
In Vitro Study
100%
Pentylenetetrazole
100%
Neocortical
100%
Chemical Kindling
100%
Paroxysmal
100%
Subthreshold
60%
N-methyl-D-aspartate Receptor (NMDAR)
60%
Membrane Potential
60%
Excitatory Postsynaptic Potential
40%
Cortex
40%
Synchronous Motion
40%
Hyperexcitability
40%
Low Intensity
40%
Suprathreshold
40%
Beta-blockers
40%
Repetitive Firing
40%
Variable Latency
40%
Ca2+
20%
Reversal Potential
20%
Spontaneous Excitatory Postsynaptic Current (sEPSC)
20%
GABAergic
20%
Soma
20%
Seizure
20%
Electrical Stimulation
20%
Motor Response
20%
Stimulus Intensity
20%
Synaptic Properties
20%
Frequency Dependence
20%
Receptor Blockers
20%
Receptor Subtypes
20%
Na +
20%
White Matter
20%
Large Population
20%
Amino
20%
Gradual Change
20%
Blockage
20%
Systemic Administration
20%
Glutamate Receptors
20%
Epileptic Seizure
20%
Hyperpolarization
20%
Aminobutyric Acid
20%
Lidocaine
20%
Superficial Layer
20%
Maximal Rate
20%
Neocortex
20%
All-or-nothing
20%
Intracellular Recording
20%
Neocortical Neurons
20%
Prolonged Response
20%
Gradual Shifts
20%
Single-spike
20%
Repetitive Stimulation
20%
Synaptic Drive
20%
Intrinsic Neuronal Properties
20%
PTZ Kindling
20%
Extracellular Field Potential
20%
Paroxysmal Depolarization Shift
20%
Kindling Model
20%
Superficial Cells
20%
Applied Current
20%
Field Potential
20%
Cortical Slices
20%
High Input Resistance
20%
QX-314
20%
Neuroscience
In Vitro
100%
Membrane Potential
100%
Pentylenetetrazol
100%
Aspartic Acid
100%
Kindling
100%
Excitatory Postsynaptic Potential
66%
Glutamate Receptor
33%
Gamma-Aminobutyric Acid
33%
Soma
33%
Reversal Potential
33%
Eicosanoid Receptor
33%
Lidocaine
33%
AP5
33%
Extracellular Field Potential
33%
Kindling Model
33%