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
2019
Remote photonic sensing of cerebral hemodynamic changes via temporal spatial analysis of acoustic vibrations
Ozana N, Noah JA, Zhang X, Ono Y, Hirsch J, Zalevsky Z. Remote photonic sensing of cerebral hemodynamic changes via temporal spatial analysis of acoustic vibrations. Journal Of Biophotonics 2019, 13: e201900201. PMID: 31415118, DOI: 10.1002/jbio.201900201.Peer-Reviewed Original ResearchConceptsHemodynamic changesCerebral hemodynamic changesNeural activityTask-specific neural activityVisual checkerboard stimulationHuman brain activationHemodynamic responseOccipital lobeBlood flowTissue oxygenationCheckerboard stimulationRest epochsBrain activationHemodynamic response functionHuman brainBrainRemote sensingNovel photonic methodPhysiological processesAcoustic vibrationsTemporal vibrationsTemporal-spatial analysisPhotonic sensing
2015
Motor learning and modulation of prefrontal cortex: an fNIRS assessment
Ono Y, Noah JA, Zhang X, Nomoto Y, Suzuki T, Shimada S, Tachibana A, Bronner S, Hirsch J. Motor learning and modulation of prefrontal cortex: an fNIRS assessment. Journal Of Neural Engineering 2015, 12: 066004. PMID: 26401727, DOI: 10.1088/1741-2560/12/6/066004.Peer-Reviewed Original ResearchConceptsDance video gameHemodynamic responsePrefrontal cortexMotor tasksMotor learningMotor performanceSpecific rehabilitation programPrefrontal hemodynamic responsesBaseline patternsHealthy young adultsTraining-induced changesComplex motor tasksRehabilitation programYoung adultsRegression analysisCortexRegression modelsAuditory cuesNovice playersSensitive indicatorResponseParticipants