2013
The role of top-down control in different phases of a sensorimotor timing task: a DCM study of adults and adolescents
Witt ST, Stevens MC. The role of top-down control in different phases of a sensorimotor timing task: a DCM study of adults and adolescents. Brain Imaging And Behavior 2013, 7: 260-273. PMID: 23475755, PMCID: PMC3743949, DOI: 10.1007/s11682-013-9224-5.Peer-Reviewed Original ResearchConceptsPrefrontal cortexLow-level sensorySignificant maturational effectsVentrolateral prefrontal cortexDynamic causal modelingInternal clock mechanismFinger-tapping taskCognitive controlSensorimotor timingBehavioral accuracyAuditory cuesTiming taskFMRI studyBaseline connectivitySensory regionsCognitive functionDCM studySensory stimuliCausal modelingAuditory cortexMotor regionsCuesBrain regionsAccurate performanceMotor control
2009
The developmental cognitive neuroscience of functional connectivity
Stevens MC. The developmental cognitive neuroscience of functional connectivity. Brain And Cognition 2009, 70: 1-12. PMID: 19185406, DOI: 10.1016/j.bandc.2008.12.009.Peer-Reviewed Original ResearchMeSH KeywordsBrainCognitionDiagnostic ImagingFunctional LateralityHumansModels, NeurologicalNeural PathwaysPrefrontal CortexSynaptic TransmissionConceptsDevelopmental cognitive neuroscienceCognitive neuroscienceFunctional connectivityFunctional connectivity analysisFunctional integrationCognitive controlBrain functional integrationCognitive maturationCognitive abilitiesConnectivity analysis methodCognitive developmentNeural substratesDevelopmental theoristsBehavioral controlConnectivity analysisNeuroscienceBrain regionsConceptual reviewCentral conceptBiological developmentRelevant conceptsCognitionRecent findingsNeural networkAdolescence
2004
fMRI analysis with the general linear model: removal of latency-induced amplitude bias by incorporation of hemodynamic derivative terms
Calhoun VD, Stevens MC, Pearlson GD, Kiehl KA. fMRI analysis with the general linear model: removal of latency-induced amplitude bias by incorporation of hemodynamic derivative terms. NeuroImage 2004, 22: 252-257. PMID: 15110015, DOI: 10.1016/j.neuroimage.2003.12.029.Peer-Reviewed Original Research