about
Roles of Voltage-Gated Tetrodotoxin-Sensitive Sodium Channels NaV1.3 and NaV1.7 in Diabetes and Painful Diabetic NeuropathyContinuous delta-opioid receptor activation reduces neuronal voltage-gated sodium channel (NaV1.7) levels through activation of protein kinase C in painful diabetic neuropathySilencing the Kir4.1 potassium channel subunit in satellite glial cells of the rat trigeminal ganglion results in pain-like behavior in the absence of nerve injuryEstradiol upregulates voltage-gated sodium channel 1.7 in trigeminal ganglion contributing to hyperalgesia of inflamed TMJ.A novel Nav1.7 mutation producing carbamazepine-responsive erythromelalgia.Gain-of-function Nav1.8 mutations in painful neuropathy.Mutations in sodium-channel gene SCN9A cause a spectrum of human genetic pain disorders.Ranolazine attenuates behavioral signs of neuropathic pain.Are voltage-gated sodium channels on the dorsal root ganglion involved in the development of neuropathic pain?Nav1.7 protein and mRNA expression in the dorsal root ganglia of rats with chronic neuropathic pain.Intra- and interfamily phenotypic diversity in pain syndromes associated with a gain-of-function variant of NaV1.7.Is there hope for chronic pain and headache?Structurally diverse μ-conotoxin PIIIA isomers block sodium channel NaV 1.4.Sodium channels, the electrogenisome and the electrogenistat: lessons and questions from the clinic.Genetic aspects of sodium channelopathy in small fiber neuropathy.Advances in targeting voltage-gated sodium channels with small molecules.The role of sodium channels in painful diabetic and idiopathic neuropathy.Genotype phenotype associations across the voltage-gated sodium channel family.Painful neuropathies: the emerging role of sodium channelopathies.Between fire and ice: refractory hypothermia and warmth-induced pain in inherited erythromelalgia.A new Nav1.7 sodium channel mutation I234T in a child with severe pain.Molecular architecture of a sodium channel S6 helix: radial tuning of the voltage-gated sodium channel 1.7 activation gateSodium channel NaV1.9 mutations associated with insensitivity to pain dampen neuronal excitability.Structural modelling and mutant cycle analysis predict pharmacoresponsiveness of a Na(V)1.7 mutant channel.Can robots patch-clamp as well as humans? Characterization of a novel sodium channel mutation.Antinociceptive Effects of Botulinum Toxin Type A on Trigeminal Neuropathic Pain.Atypical changes in DRG neuron excitability and complex pain phenotype associated with a Nav1.7 mutation that massively hyperpolarizes activation.Reverse pharmacogenomics: carbamazepine normalizes activation and attenuates thermal hyperexcitability of sensory neurons due to Nav 1.7 mutation I234T.Early- and late-onset inherited erythromelalgia: genotype-phenotype correlation.Inherited erythromelalgia due to mutations in SCN9A: natural history, clinical phenotype and somatosensory profile.Prostaglandin E2 Upregulated Trigeminal Ganglionic Sodium Channel 1.7 Involving Temporomandibular Joint Inflammatory Pain in Rats.Involvement of trigeminal ganglionic Nav 1.7 in hyperalgesia of inflamed temporomandibular joint is dependent on ERK1/2 phosphorylation of glial cells in rats.Glial interleukin-1β upregulates neuronal sodium channel 1.7 in trigeminal ganglion contributing to temporomandibular joint inflammatory hypernociception in rats.
P2860
Q28072725-940CDFF4-0816-4E4D-BE67-0D571E96B13AQ28580927-FB4EF31B-AE14-42E8-8FD9-B2E0D867A17BQ28583612-BFB748BF-9863-46CC-A88C-4F0EFE1F9D6BQ30354178-05B55950-0227-468D-BF91-00E0485D5059Q33918510-B810B210-B5A8-46AB-AD31-1654916AC73FQ34309236-BFC8FBEE-F9FB-46DB-82BC-92636AC5C177Q34585790-4BE6C95A-2BC9-4FC0-B44E-D3A6155860F6Q34612092-889FF677-2382-403B-B58A-BEFEE9106D1DQ34639336-C494088D-0C2D-4600-9159-F6358493D694Q35020727-B2638A0A-E3EA-4C83-B124-F0B573F75AF2Q35642815-17061FDE-5849-4023-AB22-00C3BFBF7459Q36947170-7F4FD482-02F6-4B69-AFC3-4496A3252ECBQ37992537-984A7C48-A5DF-4AE5-835F-D19E3B83415EQ37992862-34C05054-6655-43AB-A160-A2321A2D5D64Q38026870-AF932041-0041-4DE9-AF63-2671CB0DDFBBQ38040330-CBAD7149-4BDB-4277-BFA6-ABC45B8DEA7EQ38241746-95A0C38B-9E80-4141-B6A6-61FC21DE4AAFQ38243946-DF50DC30-56B2-457C-AEB4-490904487DFEQ38253772-DF71FFE5-0D5A-468F-B152-09F44751FC30Q39152198-0D41A9A4-2DE8-4F87-85E6-1FA153838AC0Q39287807-4BA5887A-5FFE-4111-BD0C-E41EE2EFB0D4Q40601290-2067D6C6-1F72-4CB0-AC86-FE728D8966A3Q41661778-AC4EC736-DD8E-4A1F-AE73-13A4BDB15C65Q42211742-B80138E4-A195-4EEF-A022-3BF31B8276DFQ44180217-82BE0963-E251-4A2B-BD9A-811EB2D2BF7AQ47408714-8FA337A7-2E91-48E0-A344-19747E7EECBBQ47643561-DF6CEB44-FB65-4D84-8A8D-8FF712C283F7Q47977892-407082B6-85CD-46D7-B9B6-72F122B58D97Q48001757-3267CAA0-2FAA-4D2D-B83E-4ED1BDC12371Q48062762-45F182DF-C2DE-46B5-B4E9-CB0FE7F8299CQ50667654-8A7905AB-CE80-43FB-B90D-B4189BAC766BQ51288028-877A1443-BFC6-4759-AAAC-0991454345F8Q54115074-3DD1D261-5293-4E64-8DC7-BA7CFF1AD995
P2860
description
2006 nî lūn-bûn
@nan
2006 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Neurobiology: a channel sets the gain on pain
@ast
Neurobiology: a channel sets the gain on pain
@en
Neurobiology: a channel sets the gain on pain
@nl
type
label
Neurobiology: a channel sets the gain on pain
@ast
Neurobiology: a channel sets the gain on pain
@en
Neurobiology: a channel sets the gain on pain
@nl
prefLabel
Neurobiology: a channel sets the gain on pain
@ast
Neurobiology: a channel sets the gain on pain
@en
Neurobiology: a channel sets the gain on pain
@nl
P2860
P3181
P356
P1433
P1476
Neurobiology: a channel sets the gain on pain
@en
P2093
Stephen G Waxman
P2860
P2888
P3181
P356
10.1038/444831A
P407
P577
2006-12-14T00:00:00Z
P6179
1036863576