Keyphrases
Network Bursts
100%
Cortical Culture
100%
Network Dynamics
100%
Receptor-mediated
100%
N-methyl-D-aspartate Receptor (NMDAR)
100%
AMPA Receptor (AMPAR)
100%
GABAergic Neurotransmission
100%
GABAA Receptor (GABAAR)
80%
Burst Structure
60%
Burst Size
40%
Burst Effect
40%
Inhibiting Activity
40%
Excitatory Neurotransmission
40%
Inhibitory Receptors
40%
Alzheimer's Disease
20%
Network Activity
20%
Neuronal Network
20%
Network Applications
20%
Extracellular Enzymes
20%
Cell Culture
20%
Bursting Dynamics
20%
Microelectrode Array
20%
Dissociated Culture
20%
Activity Patterns
20%
Level Model
20%
Network Model
20%
Functional Networks
20%
Control Culture
20%
Network Level
20%
Complex Interplay
20%
Pharmacology
20%
Cerebral Cortex
20%
Cortical Cells
20%
Periodic Pattern
20%
Early Development
20%
In Vitro Cell Culture
20%
Schizophrenia Symptoms
20%
Neuronal Population
20%
Neocortex
20%
Glutamate
20%
Pattern Formation
20%
Diverse Roles
20%
Firing Rate
20%
Dynamic Pattern
20%
Glutamatergic
20%
Receptor Antagonist
20%
Inhibitory Neurotransmission
20%
Ionotropic Receptor
20%
Computational Network Model
20%
D-AP5
20%
Cognitive Disorders
20%
GABAergic Receptors
20%
Slice Preparation
20%
Array Techniques
20%
Cortical Slices
20%
Postnatal Rat
20%
Fire Probability
20%
Neuroscience
Synaptic Transmission
100%
NMDA Receptor
100%
AMPA Receptor
100%
In Vitro
80%
GABAA Receptor
80%
Cell Culture
60%
Receptor
60%
Gamma-Aminobutyric Acid
40%
N-Methyl-D-Aspartic Acid
40%
AMPA
40%
Alzheimer's Disease
20%
In Vivo
20%
Cerebral Cortex
20%
Glutamic Acid
20%
Cognitive Disorders
20%
Firing Rate
20%
Ionotropic Receptor
20%
Receptor Antagonist
20%
NBQX
20%
AP5
20%
Pattern Formation
20%
Biochemistry, Genetics and Molecular Biology
Dynamics
100%
NMDA Receptor
100%
Brain Cell Culture
100%
AMPA Receptor
100%
Synaptic Transmission
100%
GABAA Receptor
80%
Amino Methyl Phosphonic Acid
40%
N-Methyl-D-Aspartic Acid
40%
Gamma-Aminobutyric Acid
40%
Dissociated Cell Culture
20%
Cell Culture
20%
Ionotropic Receptor
20%
Glutamatergic
20%
Receptor Antagonist
20%
Firing Rate
20%
NBQX
20%
Slice Preparation
20%
Microelectrode
20%
Glutamic Acid
20%
Immunology and Microbiology
Dynamics
100%
Brain Cell Culture
100%
Synaptic Transmission
100%
Cell Culture
20%
Firing Rate
20%
Dissociated Cell Culture
20%
Neocortex
20%