Pre‐attentive representation of sound duration in the human brain
- 29 May 2006
- journal article
- clinical trial
- Published by Wiley in Psychophysiology
- Vol. 43 (3) , 272-276
- https://doi.org/10.1111/j.1469-8986.2006.00397.x
Abstract
Studies using a brain index for pre-attentive change detection, the mismatch negativity (MMN), suggested distinct neuronal populations for signaling changes in sound duration and frequency. However, these studies used only durations within the temporal window of loudness summation (ca. 200 ms) in which any duration change is accompanied by a loudness change. Hence, the present study employed stimulus durations both beyond and within this temporal window in order to examine the genuine duration representation in the brain. Magnetic mismatch responses (MMNm) for duration and frequency changes were compared with each other. The equivalent current dipole (ECD) of the duration MMNm was located in the auditory cortex slightly posterior to that for the frequency MMNm irrespective of stimulus duration. The results suggested separate memory representations for sound duration and frequency in the human brain.Keywords
This publication has 19 references indexed in Scilit:
- Pre-attentive and attentive processing of temporal and frequency characteristics within long soundsCognitive Brain Research, 2005
- The Neural Circuitry of Pre-attentive Auditory Change-detection: An fMRI Study of Pitch and Duration Mismatch Negativity generatorsCerebral Cortex, 2004
- Automatic time perception in the human brain for intervals ranging from milliseconds to secondsPsychophysiology, 2004
- Mismatch responses to randomized gradient switching noise as reflected by fMRI and whole‐head magnetoencephalographyHuman Brain Mapping, 2002
- Do perceived loudness cues contribute to duration mismatch negativity (MMN)?NeuroReport, 2000
- Deviant Auditory Stimuli Activate Human Left and Right Auditory Cortex DifferentlyCerebral Cortex, 1996
- Separate Representation of Stimulus Frequency, Intensity, and Duration in Auditory Sensory Memory: An Event-Related Potential and Dipole-Model AnalysisJournal of Cognitive Neuroscience, 1995
- Cortical Activity Elicited by Changes in Auditory Stimuli: Different Sources for the Magnetic N1OOm and Mismatch ResponsesPsychophysiology, 1991
- Do event-related potentials to infrequent decrements in duration of auditory stimuli demonstrate a memory trace in man?Neuroscience Letters, 1989
- Early selective-attention effect on evoked potential reinterpretedActa Psychologica, 1978