2019
Sodium Channels and Pain
Cummins T, Waxman S, Wood J. Sodium Channels and Pain. 2019, 233-262. DOI: 10.1093/oxfordhb/9780190860509.013.3.Peer-Reviewed Original ResearchSodium channel blockersPain conditionsChannel blockersSodium channelsAnalgesic drug targetsDifferent pain statesFunction Nav1.7 mutationsMost pain conditionsPeripheral sodium channelsSodium channel subtypesDamage-sensing neuronsDrug developmentVoltage-gated sodium channelsSodium channel isoformsDrug development programsIon channelsExcellent analgesicPain controlPain reliefPain statesNav1.7 mutationSodium-selective ion channelsNew analgesicsLocal anestheticsTherapeutic approaches
2016
Pharmacological reversal of a pain phenotype in iPSC-derived sensory neurons and patients with inherited erythromelalgia
Cao L, McDonnell A, Nitzsche A, Alexandrou A, Saintot PP, Loucif AJ, Brown AR, Young G, Mis M, Randall A, Waxman SG, Stanley P, Kirby S, Tarabar S, Gutteridge A, Butt R, McKernan RM, Whiting P, Ali Z, Bilsland J, Stevens EB. Pharmacological reversal of a pain phenotype in iPSC-derived sensory neurons and patients with inherited erythromelalgia. Science Translational Medicine 2016, 8: 335ra56. PMID: 27099175, DOI: 10.1126/scitranslmed.aad7653.Peer-Reviewed Original ResearchConceptsSensory neuronsPain conditionsSodium channelsClinical phenotypeSensory neuronal activityChronic pain conditionsHeat-induced painPeripheral nervous systemUnmet clinical needSodium channel Nav1.7Nav1.7 sodium channelNav1.7 blockersPharmacological reversalPain phenotypesExtreme painNeuronal activityHeat stimuliNervous systemChannel Nav1.7PainClinical needPatientsAberrant responsesSensory conditionsInduced pluripotent stem cell line