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Sodium channels and mechanisms of neuropathic pain
Marshall Devor
*
*
Corresponding author for this work
Alexander Silberman Institute of Life Sciences
Research output
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Contribution to journal
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Article
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peer-review
345
Scopus citations
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Keyphrases
Neuropathic Pain
100%
Sodium Channel
100%
Hyperexcitability
75%
Na +
50%
Central Nervous System
50%
Peripheral Nervous System
50%
Membrane Resonance
50%
Kinetic Properties
25%
Membrane Remodeling
25%
Therapeutic Intervention
25%
Nerve Injury
25%
Transmembrane Protein
25%
Afferent Input
25%
Peripheral Nerve
25%
Systems Change
25%
Voltage Gating
25%
Na+ Channel
25%
Sensory Neurons
25%
Pain Sensation
25%
Demyelination
25%
Peripheral Sensory Neurons
25%
Spontaneous Pain
25%
Tactile Allodynia
25%
Clinical Usefulness
25%
Pain Signaling
25%
Central Sensitization
25%
Channel Regulation
25%
Cellular Excitability
25%
Nerve Impulse
25%
Pathophysiological Changes
25%
Rhythmogenesis
25%
Ectopia
25%
Electrical Excitability
25%
Axonopathy
25%
Impulse Discharge
25%
Na+ Ions
25%
Hyperexcitable
25%
Membrane Stabilizing
25%
Nerve Disease
25%
Unitary Channel
25%
Subtype Selectivity
25%
Sensory Play
25%
Immunology and Microbiology
Excitability
100%
Central Nervous System
100%
Peripheral Nervous System
100%
Sodium Channel
100%
Electric Potential
50%
Sensitization
50%
Peripheral Nerve
50%
Nociception
50%
Medicine and Dentistry
Neuropathic Pain
100%
Sodium Channel
100%
Neuropathy
40%
Peripheral Nervous System
40%
Central Nervous System
40%
Excitability
40%
Sodium Ion
20%
Nerve Injury
20%
Nociception
20%
Demyelination
20%
Sensitization
20%
Ectopic Tissue
20%
Diseases
20%
Peripheral Nerve
20%
Tactile Allodynia
20%
Sodium Ion
20%
Side Effect
20%
Neuroscience
Neuropathic Pain
100%
Sodium Channel
100%
Excitability
40%
Sensory Neuron
40%
Central Nervous System
40%
Peripheral Nervous System
40%
Neuropathy
40%
Nociception
20%
Allodynia
20%
Transmembrane Protein
20%
Peripheral Nerve
20%
Nerve Injury
20%
Side Effect
20%
Biochemistry, Genetics and Molecular Biology
Sodium Channel
100%
Excitability
40%
Sensory Neuron
40%
Transmembrane Protein
20%
Electric Potential
20%
Nociception
20%
Sensitization
20%