Using Structural MRI to Map the Functional Anatomy of Language and Reading |
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Launch in standalone player | |
Air date: | Monday, October 27, 2008, 12:00:00 PM |
Category: | Neuroscience |
Description: | Dr. Price's research program aims to establish a functional anatomical model of language that predicts how speech and reading are lost and recovered following neurological damage or developmental delay. The hypothesis is that there are multiple ways that the brain can perform each language task (degeneracy). If this is true, then the effect of damage or developmental delay will depend on whether there is a surviving system available to sustain the task.
To dissociate the neuronal systems for the same task, they use structural and functional MRI of subjects who vary in their cognitive abilities, demographics and neurological status. This allows them to characterize individual variability in the neuronal networks of neurologically normal populations and to examine how brain damage affects cognitive abilities in patient populations. In particular, Dr. Price's lab aims to determine how the impact of damage to one system depends on the integrity of another. The language tasks they use are designed to tap various aspects of reading, speech perception, speech production and language control (e.g. in bilinguals). Their studies typically compare the neuronal networks for verbal stimuli to those involved in perceptual, conceptual or motor processing of non-verbal stimuli such as music, environmental sounds, numerals and pictures of objects. NIH Neuroscience Seminar Series |
Author: | Cathy Price, Ph.D., Wellcome Trust Centre for Neuroimaging at University College London Institute of Neurology |
Runtime: | 75 minutes |
Download: | Download
Video How to download a Videocast |
CIT File ID: | 14723 |
CIT Live ID: | 7125 |
Permanent link: | http://videocast.nih.gov/launch.asp?14723 |
Podcast information | ||||||
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Audio Podcasts | Video Podcasts | |||||
Description | Runtime | Description | Runtime | |||
Enhanced Audio Podcast | 48:05 | Enhanced Video Podcast | 48:05 |