Keyphrases
Firing Rate
78%
Visual Deprivation
68%
Neuronal Activity
61%
Homeostatic Mechanisms
55%
Pentobarbital
54%
Ventral Respiratory Column
52%
Rodents
49%
Firing Rate Homeostasis
46%
Freely Moving Mice
45%
GABAA Receptor (GABAAR)
40%
Cortical Circuit Dynamics
37%
Hibernation
37%
MYT1L
37%
Patient Phenotype
37%
Brain Development
37%
Mouse Model
37%
Neuronal Maturation
37%
Network Dynamics
34%
Neuronal Firing
34%
Cortex
32%
Freely Behaving
31%
Brain State
31%
Visual Cortex
30%
Cortical Neurons
30%
Neural Activity
29%
Barbiturates
28%
Neural Circuits
27%
Neural Network
27%
Network Level
24%
Neural Recording
24%
Medulla
22%
Autism
21%
Cellular Mechanisms
21%
Homeostatic Plasticity
20%
Squirrel
20%
GABAA Receptor Subunits
20%
Dynamic Change
18%
System Level
18%
Photoinduced Phase Transition
18%
Monocular Visual
18%
Organoids
18%
Ethanol
18%
Cloud Laboratory
18%
Respiratory Neurons
18%
Reductionist
18%
Internet of Things Architecture
18%
Large-scale Networks
18%
E-I Balance
18%
Human Microglia
18%
Carbon Fiber Microelectrode
18%
Neuroscience
Firing Rate
100%
Behavior (Neuroscience)
84%
Neuronal Activity
79%
In Vivo
72%
Pentobarbital
54%
Neural Circuit
47%
Visual Cortex
46%
GABAA Receptor
42%
Brain Development
37%
Medulla
28%
Pervasive Developmental Disorder
28%
Barbiturate
28%
Receptor Subunit
23%
In Vitro
21%
Neurokinin 1 Receptor
18%
Transcriptomics
18%
Isoflurane
18%
Functional Connectivity
18%
Synaptic Inhibition
18%
Microcephaly
18%
Microglia
18%
Neural Stem Cell
18%
Exon
18%
Gamma-Aminobutyric Acid
15%
Brainstem
13%
Neurosteroid
13%
Ocular Dominance
12%
Optical Imaging
12%
Neural Network
12%
Gene Expression
11%
Female Rats
11%
Natural Vision
9%
Transcription Factors
9%
Brain Anomaly
9%
Brain Areas
9%
Attention Deficit Hyperactivity Disorder
9%
Electrophysiology
9%
Loss of Function Mutation
9%
Fibroblast
9%
Cell Density
9%
Nerve Cell Differentiation
9%
Haploinsufficiency
9%
Hyperactivity
9%
Single Unit Recordings
9%
Neuronal Death
9%
Muscimol
8%
Bicuculline
7%
Protein Quaternary Structure
7%
Sleep Stage
6%
Resting-State Functional Connectivity
6%