Drug Stroop: Mechanisms of response to computerized cognitive behavioral therapy for cocaine dependence in a randomized clinical trial
DeVito EE, Kiluk BD, Nich C, Mouratidis M, Carroll KM. Drug Stroop: Mechanisms of response to computerized cognitive behavioral therapy for cocaine dependence in a randomized clinical trial. Drug And Alcohol Dependence 2017, 183: 162-168. PMID: 29258028, PMCID: PMC5803332, DOI: 10.1016/j.drugalcdep.2017.10.022.Peer-Reviewed Original ResearchConceptsCognitive behavioral therapyDrug-related stimuliAttentional biasDrug-related cuesCognitive controlStroop effectStroop taskBehavioral therapyTreatment componentsComputer-based cognitive behavioral therapyComputerized cognitive behavioral therapyPoor cognitive controlCognitive control processesExecutive cognitive controlSubstance use severityCocaine use outcomesCocaine use disorderResponse inhibitionUse severityUse outcomesControl processGreater engagementTreatment retentionCBT4CBTCocaine dependenceFunctional Neural Changes Following Behavioral Therapies and Disulfiram for Cocaine Dependence
DeVito EE, Dong G, Kober H, Xu J, Carroll KM, Potenza MN. Functional Neural Changes Following Behavioral Therapies and Disulfiram for Cocaine Dependence. Psychology Of Addictive Behaviors 2017, 31: 534-547. PMID: 28714728, PMCID: PMC5548432, DOI: 10.1037/adb0000298.Peer-Reviewed Original ResearchConceptsCognitive behavioral therapyContingency managementPrecentral gyrusNeural activityFrontal gyrusWhole-brain correlation analysesRandomized clinical trialsSample overallBeginning of treatmentForm of treatmentMedial frontal gyrusInferior parietal lobuleCocaine use disorderDifferent treatment componentsMedication daysClinical trialsTreatment outcomesUse disordersTreatment relateFunctional changesParietal lobuleGyrusTreatment componentsGreater reductionTreatment