2021
Post-traumatic olfactory loss and brain response beyond olfactory cortex
Pellegrino R, Farruggia MC, Small DM, Veldhuizen MG. Post-traumatic olfactory loss and brain response beyond olfactory cortex. Scientific Reports 2021, 11: 4043. PMID: 33597627, PMCID: PMC7889874, DOI: 10.1038/s41598-021-83621-2.Peer-Reviewed Original ResearchConceptsPosterior cingulate cortexOlfactory impairmentOlfactory cortexFunctional anosmiaPost-traumatic olfactory lossPrimary olfactory areasWhole-brain responsesBrain responsesGray matter densityHigher-order areasOlfactory lossPiriform cortexHead traumaHealthy controlsOlfactory areasOdorless stimuliOlfactory functionMediodorsal thalamusCortical areasVentromedial prefrontal cortexCingulate cortexFrontal operculumCortexAnterior insulaPrefrontal cortex
2020
Loss of nucleus accumbens low-frequency fluctuations is a signature of chronic pain
Makary MM, Polosecki P, Cecchi GA, DeAraujo IE, Barron DS, Constable TR, Whang PG, Thomas DA, Mowafi H, Small DM, Geha P. Loss of nucleus accumbens low-frequency fluctuations is a signature of chronic pain. Proceedings Of The National Academy Of Sciences Of The United States Of America 2020, 117: 10015-10023. PMID: 32312809, PMCID: PMC7211984, DOI: 10.1073/pnas.1918682117.Peer-Reviewed Original ResearchConceptsChronic low back pain patientsLow back pain patientsChronic painPain patientsChronic phaseChronic back pain patientsBack pain patientsRostral anterior cingulate cortexAnterior cingulate cortexAdditional independent datasetsRisk of transitionResting-state activityPersistent painBack painAccumbens volumeHealthy controlsNucleus accumbensPainSeparate cohortPatientsCingulate cortexPrevalent diseaseFunctional connectivityLoss of nucleiSubcortical signatures
2012
The effect of verbal context on olfactory neural responses
Bensafi M, Croy I, Phillips N, Rouby C, Sezille C, Gerber J, Small DM, Hummel T. The effect of verbal context on olfactory neural responses. Human Brain Mapping 2012, 35: 810-818. PMID: 23225581, PMCID: PMC6869804, DOI: 10.1002/hbm.22215.Peer-Reviewed Original ResearchAn fMRI Study of the Interactions Between the Attention and the Gustatory Networks
Veldhuizen MG, Gitelman DR, Small DM. An fMRI Study of the Interactions Between the Attention and the Gustatory Networks. Chemosensory Perception 2012, 5: 117-127. PMID: 25419265, PMCID: PMC4239214, DOI: 10.1007/s12078-012-9122-z.Peer-Reviewed Original ResearchAnterior cingulate cortexFrontal eye fieldCingulate cortexPosterior parietal cortexGustatory cortexEye fieldParietal operculumParietal cortexFrontal operculumAnterior insulaRight anterior insulaPsychophysiological interaction analysisCortexDynamic causal modelingCortex actsIndirect modulationFMRI studyBrain responsesInsulaGoal-directed behaviorIncoming sensory signalsConnectivity analysisSensory signalsCurrent studyAttention task
2008
Flavor and the Formation of Category-Specific Processing in Olfaction
Small D. Flavor and the Formation of Category-Specific Processing in Olfaction. Chemosensory Perception 2008, 1: 136-146. DOI: 10.1007/s12078-008-9015-3.Peer-Reviewed Original ResearchCategory-specific processingOral referralAnterior cingulate cortexRolandic operculumCingulate cortexPattern of responseOrbitofrontal cortexUnimodal tasteFlavor perceptReferralBimodal cellsCortexNeural processingFlavor objectsSensory modalitiesMultiple sensory modalitiesOlfactionCellsPerception of flavorInsulaNeuronsOperculumNeural bindingResponse
2005
Odor/taste integration and the perception of flavor
Small DM, Prescott J. Odor/taste integration and the perception of flavor. Experimental Brain Research 2005, 166: 345-357. PMID: 16028032, DOI: 10.1007/s00221-005-2376-9.Peer-Reviewed Original ResearchConceptsFlavor perceptionUnitary perceptionCross-modal sensory interactionsSensory inputVentral lateral prefrontal cortexParticular sensory characteristicsLateral prefrontal cortexPosterior parietal cortexMultiple sensory inputsAnterior cingulate cortexPerception of flavorAttentional allocationHeteromodal regionsNeural processesAnterior insulaFlavor processingFrontal operculumOrbitofrontal cortexPrefrontal cortexCingulate cortexFlavor of foodParietal cortexNeurophysiological studiesPerceptionSensory interactionMonetary Incentives Enhance Processing in Brain Regions Mediating Top-down Control of Attention
Small DM, Gitelman D, Simmons K, Bloise SM, Parrish T, Mesulam M. Monetary Incentives Enhance Processing in Brain Regions Mediating Top-down Control of Attention. Cerebral Cortex 2005, 15: 1855-1865. PMID: 15746002, DOI: 10.1093/cercor/bhi063.Peer-Reviewed Original ResearchConceptsSpatial expectancyVisual spatial attentionNon-directional cuesCurrent behavioral goalsControl of attentionTarget detection taskFaster reaction timesInferior parietal lobulePosterior cingulate cortexDifferent incentive conditionsValid cuesCentral cuesSpatial attentionMotivational mechanismsNeural processingMotivational incentivesUnimodal cortexBehavioral goalsLimbic mechanismsParietal lobuleAttention networkDetection taskCingulate cortexRelationship of activationIncentive conditions
2001
Changes in brain activity related to eating chocolate
Small DM, Zatorre RJ, Dagher A, Evans AC, Jones-Gotman M. Changes in brain activity related to eating chocolate. Brain 2001, 124: 1720-1733. PMID: 11522575, DOI: 10.1093/brain/124.9.1720.Peer-Reviewed Original ResearchConceptsRegional cerebral blood flowCerebral blood flowOnly brain regionBrain activityPosterior cingulate cortexNon-specific effectsChemosensory areasBlood flowPET scansCingulate cortexBrain regionsPatterns of activitySensory stimuliFunctional segregationSatietyPiece of chocolateSubjectsReward valueSubjects' ratingsNeural representationSeparate motivational systemsActivityCaudomedialCortex