Sexual dimorphism in a neuronal mechanism of spinal hyperexcitability across rodent and human models of pathological pain
Dedek A, Xu J, Lorenzo LÉ, Godin AG, Kandegedara CM, Glavina G, Landrigan JA, Lombroso PJ, De Koninck Y, Tsai EC, Hildebrand ME. Sexual dimorphism in a neuronal mechanism of spinal hyperexcitability across rodent and human models of pathological pain. Brain 2022, 145: 1124-1138. PMID: 35323848, PMCID: PMC9050559, DOI: 10.1093/brain/awab408.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBrain-Derived Neurotrophic FactorChronic PainFemaleHumansMaleNeuronsRatsSex CharacteristicsSymportersConceptsBrain-derived neurotrophic factorSuperficial dorsal horn neuronsDorsal horn neuronsFemale ratsNeurotrophic factorNeuronal mechanismsCentral neuronal mechanismsSpinal nociceptive circuitsSpinal pain processingSuperficial dorsal hornChronic pain syndromeLamina I neuronsPreclinical pain modelsHuman organ donorsSynaptic NMDAR responsesNMDAR potentiationSpinal hyperexcitabilityInflammatory painNociceptive circuitsPain syndromeTactile allodyniaDorsal hornPain modelPathological painLaminae I