1999
Attenuation of experimental pruritus and mechanically evoked dysesthesiae in an area of cutaneous allodynia
Brull S, Atanassoff P, Silverman D, Zhang J, Lamotte R. Attenuation of experimental pruritus and mechanically evoked dysesthesiae in an area of cutaneous allodynia. Somatosensory & Motor Research 1999, 16: 299-303. PMID: 10632027, DOI: 10.1080/08990229970366.Peer-Reviewed Original ResearchConceptsIntradermal injectionTactile allodyniaNociceptive primary afferent neuronsArea of allodyniaAreas of whealCapsaicin-induced allodyniaPrimary afferent neuronsCutaneous hyperalgesiaCutaneous allodyniaAfferent neuronsExperimental armControl armAllodyniaExperimental pruritusDysesthesiaeOpposite forearmVolar surfaceAlloknesisHuman volunteersItchHistamineHyperknesisHyperalgesiaInhibitory processesWhealEnhancement of experimental pruritus and mechanically evoked dysesthesiae with local anesthesia
Atanassoff P, Brull S, Zhang J, Greenquist K, Silverman D, Lamotte R. Enhancement of experimental pruritus and mechanically evoked dysesthesiae with local anesthesia. Somatosensory & Motor Research 1999, 16: 291-298. PMID: 10632026, DOI: 10.1080/08990229970357.Peer-Reviewed Original ResearchConceptsAreas of dysesthesiaDuration of itchHistamine-evoked itchPrimary afferent neuronsAbnormal sensationAfferent neuronsCutaneous areaCentral inhibitionLocal anesthesiaEnhanced painControl armIntradermal injectionLocal anestheticsExperimental pruritusPainItchVolar forearmHistamineMechanical stimulationAfferentsHuman subjectsAnestheticsSkinPresent studySensation
1992
Central changes in processing of mechanoreceptive input in capsaicin‐induced secondary hyperalgesia in humans.
Torebjörk H, Lundberg L, LaMotte R. Central changes in processing of mechanoreceptive input in capsaicin‐induced secondary hyperalgesia in humans. The Journal Of Physiology 1992, 448: 765-780. PMID: 1593489, PMCID: PMC1176227, DOI: 10.1113/jphysiol.1992.sp019069.Peer-Reviewed Original ResearchConceptsMechanical hyperalgesiaCapsaicin injectionIntraneural microstimulationMechanoreceptive inputCapsaicin-induced secondary hyperalgesiaCutaneous innervation territoryArea of hyperalgesiaHealthy human subjectsSecondary hyperalgesiaAlgesic substancesLidocaine anesthesiaInnervation territoryIntense painIntradermal injectionUnmyelinated fibersHyperalgesiaMyelinated fibersC-fibersCentral changesPainAfferent signalsImpulse conductionSuprathreshold stimulationSkin areasTactile sensation
1991
Neurogenic hyperalgesia: psychophysical studies of underlying mechanisms
LaMotte R, Shain C, Simone D, Tsai E. Neurogenic hyperalgesia: psychophysical studies of underlying mechanisms. Journal Of Neurophysiology 1991, 66: 190-211. PMID: 1919666, DOI: 10.1152/jn.1991.66.1.190.Peer-Reviewed Original ResearchConceptsInjection of capsaicinMechanical hyperalgesiaNerve fibersInjection siteAlgesic substancesPrimary afferent nerve fibersArea of tendernessCapsaicin injection siteMicrograms of capsaicinNociceptive nerve fibersPeripheral neural activityArea of hyperalgesiaCutaneous nerve fibersAfferent nerve fibersMagnitude of painSingle intradermal injectionNeural activityArea of analgesiaSite of injuryLarger mean areaAnesthetized skinNeurogenic hyperalgesiaCutaneous anesthesiaIntradermal injectionPainful stimuliPsychophysical Studies of the Itch Sensation and Itchy Skin (“Alloknesis”) Produced by Intracutaneous Injection of Histamine
Simone D, Alreja M, Lamotte R. Psychophysical Studies of the Itch Sensation and Itchy Skin (“Alloknesis”) Produced by Intracutaneous Injection of Histamine. Somatosensory & Motor Research 1991, 8: 271-279. PMID: 1767623, DOI: 10.3109/08990229109144750.Peer-Reviewed Original ResearchConceptsDuration of itchSubcutaneous injectionIntracutaneous injectionItchy skinArea of alloknesisSensation of itchMicrograms of histamineSkin temperatureItch sensationLocal anesthesiaAlloknesisMean latencyInjection siteMean maximum areaItchHuman volunteersHistamineVolar forearmDose-response functionInjectionNeural mechanismsSkinDoseDurationMicrograms