_Common neural mechanisms for explicit timing in the sub-second range_ Abstract Temporal processing is crucial to many cognitive and motor functions. Comparing different aspects of temporal processing is important for a fundamental understanding of its neural mechanisms. In this study, the neural substrates activated during duration discrimination tasks across different sensory modalities, audition and vision, and sensory structures, empty and filled interval, were examined using event-related functional magnetic resonance imaging (MRI). The supplementary motor area and the basal ganglia are suggested as the common neural substrates for temporal processing across sensory modalities and sensory structures for explicit timing in the subsecond range. https://brc.ym.edu.tw/uploads/journal_paper_file/journal_file/5caee20d02dcf07eed0006cf/2009_石佑翎_NeuroReport.pdf

_Common neural mechanisms for explicit timing
in the sub-second range_
 
Abstract
Temporal processing is crucial to many cognitive and
motor functions. Comparing different aspects of temporal
processing is important for a fundamental understanding
of its neural mechanisms. In this study, the neural
substrates activated during duration discrimination tasks
across different sensory modalities, audition and vision,
and sensory structures, empty and filled interval, were
examined using event-related functional magnetic
resonance imaging (MRI). The supplementary motor area
and the basal ganglia are suggested as the common neural
substrates for temporal processing across sensory
modalities and sensory structures for explicit timing
in the subsecond range.
 
https://brc.ym.edu.tw/uploads/journal_paper_file/journal_file/5caee20d02dcf07eed0006cf/2009_石佑翎_NeuroReport.pdf

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