2022
Chronic pain precedes disrupted eating behavior in low-back pain patients
Lin Y, De Araujo I, Stanley G, Small D, Geha P. Chronic pain precedes disrupted eating behavior in low-back pain patients. PLOS ONE 2022, 17: e0263527. PMID: 35143525, PMCID: PMC8830732, DOI: 10.1371/journal.pone.0263527.Peer-Reviewed Original ResearchConceptsLow back pain patientsChronic low back pain patientsFat-rich foodsPain patientsChronic painCLBP patientsSBP patientsNucleus accumbensBack pain patientsChronic pain patientsHealthy control subjectsNucleus accumbens volumePain chronificationFat ingestionHedonic feedingPatient populationAccumbens volumeControl subjectsLimbic brainPainEarly coursePatientsBehavioral alterationsHedonic perceptionNeurological standpoint
2021
Fat and Carbohydrate Interact to Potentiate Food Reward in Healthy Weight but Not in Overweight or Obesity
Perszyk EE, Hutelin Z, Trinh J, Kanyamibwa A, Fromm S, Davis XS, Wall KM, Flack KD, DiFeliceantonio AG, Small DM. Fat and Carbohydrate Interact to Potentiate Food Reward in Healthy Weight but Not in Overweight or Obesity. Nutrients 2021, 13: 1203. PMID: 33917347, PMCID: PMC8067354, DOI: 10.3390/nu13041203.Peer-Reviewed Original Research
2020
Development of MacroPics: A novel food picture set to dissociate the effects of carbohydrate and fat on eating behaviors
Fromm S, Perszyk EE, Kanyamibwa A, Wall KM, Hutelin Z, Trinh J, Davis XS, Green BG, Flack KD, DiFeliceantonio A, Small DM. Development of MacroPics: A novel food picture set to dissociate the effects of carbohydrate and fat on eating behaviors. Appetite 2020, 159: 105051. PMID: 33242580, DOI: 10.1016/j.appet.2020.105051.Peer-Reviewed Original Research
2019
Processed foods and food reward
Small DM, DiFeliceantonio AG. Processed foods and food reward. Science 2019, 363: 346-347. PMID: 30679360, DOI: 10.1126/science.aav0556.Peer-Reviewed Original Research
2018
Food Intake Recruits Orosensory and Post-ingestive Dopaminergic Circuits to Affect Eating Desire in Humans
Thanarajah SE, Backes H, DiFeliceantonio AG, Albus K, Cremer AL, Hanssen R, Lippert RN, Cornely OA, Small DM, Brüning JC, Tittgemeyer M. Food Intake Recruits Orosensory and Post-ingestive Dopaminergic Circuits to Affect Eating Desire in Humans. Cell Metabolism 2018, 29: 695-706.e4. PMID: 30595479, DOI: 10.1016/j.cmet.2018.12.006.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedBrainDopamineEatingFood PreferencesHealthy VolunteersHumansMagnetic Resonance ImagingMaleMiddle AgedTasteConceptsDopaminergic circuitsHigher cognitive centersSegregated brain regionsPeripheral physiological signalsPalatable food intakeReward valueDopamine releaseCognitive centersSubjective desireBrain regionsBrain areasUnderlying reinforcementFood intakeDorsal striatumRole of brainPhysiological signalsFood selection behaviorIntegrative pathwaysFMRIDesirePET methodBrainHumansIntakeSelection behaviorSupra-Additive Effects of Combining Fat and Carbohydrate on Food Reward
DiFeliceantonio AG, Coppin G, Rigoux L, Thanarajah S, Dagher A, Tittgemeyer M, Small DM. Supra-Additive Effects of Combining Fat and Carbohydrate on Food Reward. Cell Metabolism 2018, 28: 33-44.e3. PMID: 29909968, DOI: 10.1016/j.cmet.2018.05.018.Peer-Reviewed Original ResearchMeSH KeywordsAdultBrainDietary CarbohydratesDietary FatsFemaleFood PreferencesHumansMagnetic Resonance ImagingMaleNutritive ValueReward
2017
Integration of Sweet Taste and Metabolism Determines Carbohydrate Reward
Veldhuizen MG, Babbs RK, Patel B, Fobbs W, Kroemer NB, Garcia E, Yeomans MR, Small DM. Integration of Sweet Taste and Metabolism Determines Carbohydrate Reward. Current Biology 2017, 27: 2476-2485.e6. PMID: 28803868, PMCID: PMC5745144, DOI: 10.1016/j.cub.2017.07.018.Peer-Reviewed Original ResearchConceptsCaloric loadGreater metabolic responseNon-linear associationMetabolic responseSugar-sweetened beveragesBrain responsesLow-calorie beveragesHigh-calorie beveragesNon-nutritive sweetenersGreater brain responsePost-ingestive signalsHuman studiesSweet tasteNutrient metabolismCarbohydrate metabolismNovel mechanismBeveragesPotencyAssociationMetabolismCarbohydrate rewards
2015
Greater perceived ability to form vivid mental images in individuals with high compared to low BMI
Patel BP, Aschenbrenner K, Shamah D, Small DM. Greater perceived ability to form vivid mental images in individuals with high compared to low BMI. Appetite 2015, 91: 185-189. PMID: 25865661, DOI: 10.1016/j.appet.2015.04.005.Peer-Reviewed Original ResearchConceptsImagery abilityMental imagery abilityFrequent food cravingsFood cue reactivityVivid mental imagesHierarchical regression analysisMental imageryOlfactory imageryCue reactivityVisual objectsMental imagesFood cravingsPositive associationSecond experimentSignificant positive associationBest predictorParticipantsIndividualsAbilityImageryCravingObese individualsMeasuresRegression analysisCorrelation analysis
2013
Ventromedial Prefrontal Cortex Response to Concentrated Sucrose Reflects Liking Rather Than Sweet Quality Coding
Rudenga KJ, Small DM. Ventromedial Prefrontal Cortex Response to Concentrated Sucrose Reflects Liking Rather Than Sweet Quality Coding. Chemical Senses 2013, 38: 585-594. PMID: 23828907, PMCID: PMC3747761, DOI: 10.1093/chemse/bjt029.Peer-Reviewed Original ResearchDecreased caudate response to milkshake is associated with higher body mass index and greater impulsivity
Babbs RK, Sun X, Felsted J, Chouinard-Decorte F, Veldhuizen MG, Small DM. Decreased caudate response to milkshake is associated with higher body mass index and greater impulsivity. Physiology & Behavior 2013, 121: 103-111. PMID: 23562867, PMCID: PMC3731396, DOI: 10.1016/j.physbeh.2013.03.025.Peer-Reviewed Original ResearchConceptsBody mass indexCaudate responseMass indexCaudate nucleusBrain responsesHigher body mass indexWeight gainHealthy weight subjectsTasteless control solutionEnergy-dense foodsSelf-reported impulsivityWeight subjectsNegative associationVentral putamenDorsal striatumFood rewardDense foodsSignificant associationInverse correlationMilkshakeOverweightGreater impulsivityMeasures of impulsivityGreater responseAssociation
2012
Flavor is in the brain
Small DM. Flavor is in the brain. Physiology & Behavior 2012, 107: 540-552. PMID: 22542991, DOI: 10.1016/j.physbeh.2012.04.011.Peer-Reviewed Original ResearchMeSH KeywordsBrain StemCerebral CortexFood PreferencesFunctional NeuroimagingHumansIllusionsTaste PerceptionThalamusAcute stress potentiates brain response to milkshake as a function of body weight and chronic stress
Rudenga KJ, Sinha R, Small DM. Acute stress potentiates brain response to milkshake as a function of body weight and chronic stress. International Journal Of Obesity 2012, 37: 309-316. PMID: 22430303, PMCID: PMC3381866, DOI: 10.1038/ijo.2012.39.Peer-Reviewed Original ResearchConceptsBody mass indexFunctional magnetic resonance imagingChronic stressOrbitofrontal cortexRight amygdalaBody weightPalatable foodAcute stressBasal cortisol levelsBrain responsesAmygdala responseMagnetic resonance imagingStress-related eatingMilkshake receiptPalatable milkshakeObese womenOverweight womenMass indexRight amygdala responseOFC responsesPotentiates responsesCortisol levelsLeft amygdalaResonance imagingVentral striatum
2010
Genetically Determined Differences in Brain Response to a Primary Food Reward
Felsted JA, Ren X, Chouinard-Decorte F, Small DM. Genetically Determined Differences in Brain Response to a Primary Food Reward. Journal Of Neuroscience 2010, 30: 2428-2432. PMID: 20164326, PMCID: PMC2831082, DOI: 10.1523/jneurosci.5483-09.2010.Peer-Reviewed Original ResearchConceptsBrain responsesPrimary food rewardFunctional magnetic resonanceTaqIA A1 alleleOrbital frontal cortexReward driveIndividual differencesNeural responsesFuture weight gainFood rewardPalatable foodNeuroimaging techniquesPerceptual responsesBiological underpinningsIndividual factorsFrontal cortexImpulsivityDiminished dopamineSimilar ratingsFood reinforcementRewardSpecific associationNeurophysiologyMilkshakeBody mass index
2005
Gustatory agnosia
Small DM, Bernasconi N, Bernasconi A, Sziklas V, Jones-Gotman M. Gustatory agnosia. Neurology 2005, 64: 311-317. PMID: 15668430, DOI: 10.1212/01.wnl.0000149515.77718.35.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgnosiaAmygdalaAnorexiaAtrophyCerebral CortexElectrodes, ImplantedElectroencephalographyEpilepsy, Temporal LobeFemaleFollow-Up StudiesFood PreferencesHippocampusHumansMagnetic Resonance ImagingMeningoencephalitisNeuropsychological TestsOlfaction DisordersPositron-Emission TomographyPostoperative ComplicationsTasteTaste ThresholdTemporal LobeConceptsMedial temporal lobeTemporal lobeSurgical treatmentLeft medial temporal lobeAnteromedial temporal lobeFunctional neuroimaging studiesBilateral atrophyIntractable epilepsyComplete atrophyPreoperative MRIGustatory functionLeft amygdalaLeft insulaChemosensory evaluationNeuroimaging studiesTaste abilityPatientsAtrophyAmygdalaAversive tasteLobeRecognition thresholdAgnosiaTreatmentTaste quality