2020
Predictive Processing in Mental Illness: Hierarchical Circuitry for Perception and Trauma
Kaye AP, Krystal JH. Predictive Processing in Mental Illness: Hierarchical Circuitry for Perception and Trauma. Journal Of Psychopathology And Clinical Science 2020, 129: 629-632. PMID: 32757606, DOI: 10.1037/abn0000628.Peer-Reviewed Original ResearchConceptsTrauma-related disordersPredictive processingDisorders of perceptionNeural circuitsHigher-order predictionsAbnormal psychologyPrediction errorSensory stimuliPredictive codingHierarchical circuitryPrior beliefsNew sensory dataPerceptionBayesian processPsychiatric disordersPsychotic disordersHierarchical viewHierarchical organizationMental illnessSensory dataBeliefsDisordersFuture directionsComputational layerProcessing
2010
Glutamatergic Model Psychoses: Prediction Error, Learning, and Inference
Corlett PR, Honey GD, Krystal JH, Fletcher PC. Glutamatergic Model Psychoses: Prediction Error, Learning, and Inference. Neuropsychopharmacology 2010, 36: 294-315. PMID: 20861831, PMCID: PMC3055519, DOI: 10.1038/npp.2010.163.Peer-Reviewed Original ResearchToward a neurobiology of delusions
Corlett PR, Taylor JR, Wang X, Fletcher PC, Krystal JH. Toward a neurobiology of delusions. Progress In Neurobiology 2010, 92: 345-369. PMID: 20558235, PMCID: PMC3676875, DOI: 10.1016/j.pneurobio.2010.06.007.Peer-Reviewed Original ResearchConceptsFundamental brain mechanismsFronto-striatal circuitsTerms of cognitionPsychological processesBrain mechanismsComputational mechanismsCortical hierarchyPrediction errorSocial learningParietal cortexExternal worldBrain circuitsNeurobiological abnormalitiesNeurobiology of delusionsBrain functionHierarchical predictionBodily agencyDelusionsMemoryReinforcement learningPerceptionMental illnessTranslational understandingLearningCognition
2000
Dissociation of ketamine effects on rule acquisition and rule implementation: possible relevance to NMDA receptor contributions to executive cognitive functions
Krystal J, Bennett A, Abi-Saab D, Belger A, Karper L, D’Souza D, Lipschitz D, Abi-Dargham A, Charney D. Dissociation of ketamine effects on rule acquisition and rule implementation: possible relevance to NMDA receptor contributions to executive cognitive functions. Biological Psychiatry 2000, 47: 137-143. PMID: 10664830, PMCID: PMC10060085, DOI: 10.1016/s0006-3223(99)00097-9.Peer-Reviewed Original ResearchConceptsExecutive cognitive functionSecond test dayPerseverative errorsWCST performanceCognitive functionTest daySecond studyExecutive componentTask repetitionAltered perceptionWCSTNMDA antagonist ketamineNegative symptomsFrontal cortexRule acquisitionTest changesFirst studySingle repetitionKetamine effectsRepetitionTotal errorDistractibilityReceptor contributionNMDA receptor contributionRecall
1998
Interactive effects of subanesthetic ketamine and subhypnotic lorazepam in humans
Krystal J, Karper L, Bennett A, D’Souza D, Abi-Dargham A, Morrissey K, Abi-Saab D, Bremner J, Bowers Jr. M, Suckow R, Stetson P, Heninger G, Charney D. Interactive effects of subanesthetic ketamine and subhypnotic lorazepam in humans. Psychopharmacology 1998, 135: 213-229. PMID: 9498724, DOI: 10.1007/s002130050503.Peer-Reviewed Original ResearchConceptsWisconsin Card Sorting TestClinician-Administered Dissociative States ScalePerceptual alterationsAmnestic effectsInteractive effectsCard Sorting TestBrief Psychiatric Rating ScaleAttention impairmentSorting TestPerceptual effectsProverb interpretationEmotional distressDissociative effectsCortical impairmentNegative symptomsState scaleBehavioral effectsTest dayPsychiatric Rating ScaleLorazepam 2ImpairmentRating ScaleSubanesthetic ketamineHealthy humansPlacebo 2