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RESEARCH PRODUCT
The reliability of continuous brain responses during naturalistic listening to music
Petri ToiviainenIballa BurunatVinoo AlluriBrigitte BogertElvira BratticoMikko SamsTapani Ristaniemisubject
MalePoison controlBrain mappingNOISE0302 clinical medicineInterclass correlationMusical featuresBrain Mappingmedicine.diagnostic_testResearch Support Non-U.S. Gov't05 social sciencesBrainCognitionReliabilityMagnetic Resonance ImaginghumanitiesVARIABILITYNeurologyNEUROSCIENCEFMRIta6131Naturalistic paradigmAuditory PerceptionFemaleTEST-RETEST RELIABILITYPsychologypsychological phenomena and processesCognitive psychologyAdultCognitive NeuroscienceLATERALIZATIONbehavioral disciplines and activitiesta3112050105 experimental psychologyLateralization of brain function03 medical and health sciencesTIMBREYoung AdultWORKING-MEMORYmedicineJournal ArticleHumans0501 psychology and cognitive sciencesActive listeningSet (psychology)ATTENTIONReproducibility of ResultsDice coefficientFunctional magnetic resonance imaging (fMRI)Acoustic StimulationFunctional magnetic resonance imagingNeuroscienceTimbrehuman activities030217 neurology & neurosurgeryMusicAUDITORY-CORTEXdescription
Low-level (timbral) and high-level (tonal and rhythmical) musical features during continuous listening to music, studied by functional magnetic resonance imaging (fMRI), have been shown to elicit large-scale responses in cognitive, motor, and limbic brain networks. Using a similar methodological approach and a similar group of participants, we aimed to study the replicability of previous findings. Participants' fMRI responses during continuous listening of a tango Nuevo piece were correlated voxelwise against the time series of a set of perceptually validated musical features computationally extracted from the music. The replicability of previous results and the present study was assessed by two approaches: (a) correlating the respective activation maps, and (b) computing the overlap of active voxels between datasets at variable levels of ranked significance. Activity elicited by timbral features was better replicable than activity elicited by tonal and rhythmical ones. These results indicate more reliable processing mechanisms for low-level musical features as compared to more high-level features. The processing of such high-level features is probably more sensitive to the state and traits of the listeners, as well as of their background in music.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-03-31 | NeuroImage |