2024
Rock music improvisation shows increased activity in Broca’s area and its right hemisphere homologue related to spontaneous creativity
Tachibana A, Noah J, Ono Y, Irie S, Tatsumoto M, Taguchi D, Tokuda N, Ueda S. Rock music improvisation shows increased activity in Broca’s area and its right hemisphere homologue related to spontaneous creativity. BMC Research Notes 2024, 17: 61. PMID: 38433213, PMCID: PMC10909250, DOI: 10.1186/s13104-024-06727-6.Peer-Reviewed Original ResearchConceptsSpontaneous creativityNeural correlates of creativityBroca's areaCorrelates of creativityMusical improvisationImprovisational playRight hemisphere homologuesAmount of practiceFunctional near-infrared spectroscopyImprovisationSubjective feelingsCreativityHemisphere homologuesPlayMotor planningBrocaSpeech controlFeelingsNear-infrared spectroscopyMotor controlIncreased activityGuitaristsHemodynamic responseConcurrent activationSkills
2018
A cross-brain neural mechanism for human-to-human verbal communication
Hirsch J, Noah J, Zhang X, Dravida S, Ono Y. A cross-brain neural mechanism for human-to-human verbal communication. Social Cognitive And Affective Neuroscience 2018, 13: 907-920. PMID: 30137601, PMCID: PMC6137318, DOI: 10.1093/scan/nsy070.Peer-Reviewed Original ResearchConceptsSuperior temporal gyrusInteractive brain hypothesisNeural mechanismsSocial interactionBrain hypothesisCanonical language areasHuman verbal communicationNon-interactive conditionDynamic social interactionsObject NamingSocial cuesInterpersonal informationBrain substratesDescription taskTemporal gyrusBroca's areaLanguage areasWernicke's areaNeural activitySubcentral areaVerbal communicationNatural settingsTheoretical frameworkGeneral theoretical frameworkDeoxyhemoglobin signal