2020
Ultra-high field imaging reveals increased whole brain connectivity underpins cognitive strategies that attenuate pain
Schulz E, Stankewitz A, Winkler A, Irving S, Witkovský V, Tracey I. Ultra-high field imaging reveals increased whole brain connectivity underpins cognitive strategies that attenuate pain. ELife 2020, 9: e55028. PMID: 32876049, PMCID: PMC7498261, DOI: 10.7554/elife.55028.Peer-Reviewed Original ResearchMeSH KeywordsAdultBrainCognitionDiffusion Tensor ImagingFemaleHumansMalePainPain ManagementTask Performance and AnalysisYoung AdultConceptsPain attenuationBrain connectivityAttenuation of painCognitive strategiesHigher functional connectivityWhole-brain connectivityTonic cold painWhite matter integrityPain processingLower painFunctional imaging dataCold painPainCingulate cortexBrain regionsFunctional connectivityHealthy participantsTrialsCognitive interventionsDiffusion tensorTrial variabilityBrain dataImaging dataParticipants
2019
Strategy-dependent modulation of cortical pain circuits for the attenuation of pain
Schulz E, Stankewitz A, Witkovský V, Winkler A, Tracey I. Strategy-dependent modulation of cortical pain circuits for the attenuation of pain. Cortex 2019, 113: 255-266. PMID: 30711854, DOI: 10.1016/j.cortex.2018.12.014.Peer-Reviewed Original ResearchConceptsCognitive strategiesBrain activityDifferent cognitive strategiesPain attenuationUnderlying neuronal mechanismsPain-related brain activityVariability of performanceNeuroscientific techniquesNeurofeedback techniquesT fMRIPerception of painBehavioral dataBehavioral studiesTrial levelBrain regionsCortical regionsNeuronal mechanismsCortical feedbackInsular cortexDistractionTaskPain perceptionPotential predispositionAttenuation of painPerception