Coupling neuroscience and driving simulation: A systematic review of studies on crash-risk behaviors in young drivers
Banz BC, Hersey D, Vaca FE. Coupling neuroscience and driving simulation: A systematic review of studies on crash-risk behaviors in young drivers. Traffic Injury Prevention 2020, 22: 90-95. PMID: 33320014, DOI: 10.1080/15389588.2020.1847283.Peer-Reviewed Original ResearchConceptsNeuroscience methodsYoung driversFunctional magnetic resonance imagingYoung adult driversRisky driving behaviorsAlcohol-impaired drivingVisual distractorsCognitive loadBrain mechanismsBrain correlatesDistracted drivingAdult driversDriving simulatorDriving behaviorMotor vehicle crashesYoung adultsIndividual variabilityDrowsy/Brain dataNeuroscienceVehicle crashesDrivingSystematic reviewMost researchFatal motor vehicle crashesBrain-based limitations in attention and secondary task engagement during high-fidelity driving simulation among young adults.
Banz BC, Wu J, Camenga DR, Mayes LC, Crowley MJ, Vaca FE. Brain-based limitations in attention and secondary task engagement during high-fidelity driving simulation among young adults. Neuroreport 2020, 31: 619-623. PMID: 32366810, DOI: 10.1097/wnr.0000000000001451.Peer-Reviewed Original ResearchConceptsAuditory attention taskP3 responseAttention taskNo-Load ConditionSelective auditory attention taskEvent-related potential componentHigh-fidelity driving simulationPosterior sitesSecondary task engagementPosterior midline sitesPosterior P2Auditory attentionAttention processingAuditory taskAttention conditionAttention capabilitiesCognitive loadTask engagementNeural processingFrontal sitesAuditory stimuliAuditory tonesP3 componentDistracted drivingP2 responses