Neuroscience
Optogenetics
100%
Sensory Neuron
97%
Dorsal Root Ganglion
91%
Behavior (Neuroscience)
75%
Kainate Receptor
75%
Receptor
68%
Nociceptor
39%
Amygdala
33%
Synaptic Transmission
31%
Synapse
31%
Neural Circuit
30%
G Protein Coupled Receptor
30%
Receptor Subunit
30%
Nerve Injury
27%
AMPA Receptor
26%
Transcriptomics
26%
In Vivo
22%
Opsin
22%
CRISPR
22%
Nucleus Accumbens
20%
Optics
18%
Central Nervous System
17%
Neuronal Excitability
17%
Ventral Pallidum
17%
Glutamate Receptor
16%
Channelrhodopsin
16%
Peripheral Nervous System
15%
Glycan
15%
Ionotropic Glutamate Receptor
13%
Ionotropic Receptor
13%
Neuropathic Pain
13%
Neuropilin
13%
Mental Disorder
13%
Bradykinin
12%
Ventral Tegmental Area
12%
Chloroquine
12%
GABA Receptor
12%
Excitability
12%
Neuromodulation
12%
Posttranslational Modification
12%
Oxycodone
11%
Receptor Gene
11%
Catenin
11%
Multigene Family
11%
Endocytosis
11%
Voltage-Gated Potassium Channel
11%
Catecholamine
11%
Bradykinin Receptor
11%
Galectin
11%
Macrophage
11%
Keyphrases
Kainate Receptor
77%
Sensory Neurons
62%
Optogenetics
58%
Human Sensory Neurons
54%
Human Dorsal Root Ganglia
45%
Itch
40%
Dorsal Root Ganglion Neurons
40%
Dorsal Root Ganglion
38%
Wireless
33%
Neural Circuits
33%
Optogenetic Stimulation
32%
AMPA Receptor (AMPAR)
32%
Rodents
31%
Receptor Function
30%
Receptor Subunits
27%
Chronic Pain
26%
Nerve
25%
Glutamatergic
25%
Ionotropic Receptor
25%
Central Amygdala
25%
Synaptic Transmission
22%
Human Nociceptors
22%
Galectin-1 (Gal-1)
22%
Battery-free
22%
Cellular Circuits
22%
Neuromodulation
22%
Pain States
22%
Nociceptor
21%
Spinal Cord
21%
Peripheral Nervous System
19%
Central Nervous System
19%
Fully Implantable
18%
Opsin
18%
Nucleus Accumbens
18%
Synapse
17%
Optogenetic Tools
15%
Ventral Pallidum
15%
GABAergic Neurons
15%
Ventrolateral Periaqueductal Gray (vlPAG)
14%
Bladder Function
14%
Channelrhodopsin-2 (ChR2)
14%
Functional Circuits
14%
Primary Sensory Neurons
14%
Sensory Afferents
14%
Spatiotemporal Control
14%
Cre-dependent
14%
Depolarization
14%
Glutamate
14%
Neuronal Excitability
14%
Neuronal Activity
14%
