1992
Subpopulations of “nocifensor neurons” contributing to pain and allodynia, itch and alloknesis
LaMotte R. Subpopulations of “nocifensor neurons” contributing to pain and allodynia, itch and alloknesis. Journal Of Pain 1992, 1: 115-126. DOI: 10.1016/1058-9139(92)90040-j.Peer-Reviewed Original ResearchSpinothalamic tract cellsDorsal hornTract cellsNociceptive primary afferent neuronsPrimary afferent neuronsPrimary sensory neuronsCentral nervous systemNon-neuronal tissuesAfferent neuronsCutaneous mechanoreceptive afferentsPrimary afferentsConvergent inputsDifferent populationsPeripheral tissuesSensory neuronsPainCutaneous injuryNervous systemMechanoreceptive afferentsNoxious eventsProlonged enhancementNeuronsItchAllodyniaAlloknesis
1984
The Role of C-Nociceptors in Cutaneous Heat Pain and Hyperalgesia
Lamotte R. The Role of C-Nociceptors in Cutaneous Heat Pain and Hyperalgesia. Wenner-Gren Symposium 1984, 363-377. DOI: 10.1007/978-1-349-07292-7_26.Peer-Reviewed Original ResearchThe Role of C-Nociceptors in Cutaneous Heat Pain and Hyperalgesia
Lamotte R. The Role of C-Nociceptors in Cutaneous Heat Pain and Hyperalgesia. Ettore Majorana International Science Series 1984, 363-377. DOI: 10.1007/978-1-4613-2807-0_26.Peer-Reviewed Original ResearchCutaneous heat painHeat painCutaneous nociceptorsHeat pain thresholdNoxious heat stimuliSensation of painPeripheral neural mechanismsHeat injuryC-nociceptorsNociceptor responsesPain thresholdAfferent fibersCutaneous receptorsPainCutaneous injuryHeat stimuliHyperalgesiaNociceptorsNeurophysiological studiesInjuryNeural mechanismsMagnitude ratingsPsychophysical studiesStimuliStudy