Antihyperalgesic activity of chlorogenic acid in experimental neuropathic pain
Bagdas D, Cinkilic N, Ozboluk H, Ozyigit M, Gurun M. Antihyperalgesic activity of chlorogenic acid in experimental neuropathic pain. Journal Of Natural Medicines 2012, 67: 698-704. PMID: 23203628, DOI: 10.1007/s11418-012-0726-z.Peer-Reviewed Original ResearchConceptsChronic constrictive nerve injuryNeuropathic painAntihyperalgesic activityPeripheral neuropathic pain modelExperimental neuropathic painNeuropathic pain modelRota-rod testNovel potential therapeutic optionPotential therapeutic optionStrong therapeutic effectLatency of ratsChlorogenic acidAntihyperalgesic effectMechanical hyperalgesiaNerve injuryPain modelChronic administrationInflammatory cascadeTherapeutic optionsHistopathological changesInflammatory processTherapeutic effectAnalgesic activityPainNervous systemContribution of PKMζ‐dependent and independent amplification to components of experimental neuropathic pain
King T, Qu C, Okun A, Melemedjian OK, Mandell EK, Maskaykina IY, Navratilova E, Dussor GO, Ghosh S, Price TJ, Porreca F. Contribution of PKMζ‐dependent and independent amplification to components of experimental neuropathic pain. Pain 2012, 153: 1263-1273. PMID: 22482911, PMCID: PMC3358498, DOI: 10.1016/j.pain.2012.03.006.Peer-Reviewed Original ResearchConceptsRostral anterior cingulate cortexExperimental neuropathic painNeuropathic painMK-801Spontaneous painN-methyl-D-aspartate receptor blockadeSpinal nerve ligation injuryNerve ligation injurySpinal dorsal hornLong-term potentiationAnterior cingulate cortexPseudosubstrate inhibitory peptideDorsal hornReceptor blockadeTime-dependent mannerLigation injuryPain processingSingle administrationSpinal cordPainCingulate cortexFull recoveryInhibitory peptidesInhibition of PKMζIndependent mechanisms
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