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Functional Neuroimaging Studies

$0Z01FY2005DCNIH

Deafness &Other Communication Disorders

Investigators

Linked publications & trials

Abstract

Functional imaging techniques are being used to characterize brain activation patterns in normal subjects and individuals with neurological disorders affecting human communication. Brain activation patterns characterized using PET, fMRI, EEG, MEG and other brain mapping techniques are used to characterize phenotypic presentation, pathophysiology and treatment of communication disorders. PET scans are performed on the GE Advance and Scanditronix PC2048-15B tomographs using the H215O and C-11 Raclopride methods. Data are analyzed using Statistical Parametric Mapping software and newer covariance techniques developed in the section. Structural and functional MRI studies are performed on 1.5 and 3.0 Tesla instruments. Functional images are acquired using spiral, echoplanar imaging and arterial spin-tagging methods. Data are analyzed using MEDx, AFNI, and SPM software and newer covariance techniques developed in the Section. High density EEG studies are conducted using a Neuroscan 64 channel system and analyzed using BESA, Neuroscan and Brain Voyager packages. MEG data are collected on a 275 channel CTF instrument. A series of combined hemodynamic and electrophysiological studies of language in normal volunteers demonstrated unique task related patterns of brain activity for reading, naming, and semantic processing that will serve as a baseline when these paradigms are used to study language recovery in post-stroke aphasia. An arterial spin tagging fMRI study demonstrated the feasibility of studying continuous speech with this method (not possible with standard fMRI techniques because of artifact production) that will be useful in studying recovery of syntactic abilities in aphasics as well. Structural MRI studies evaluating relationships between aphasic symptoms and lesion location are ongoing, with over 40 patients studied thus far. PET studies in deaf subjects using American Sign Language demonstrated modality independent features of language processing, strongly lateralized to the left hemisphere regardless of the hand used in signing. Other PET studies demonstrated unique patterns of brain activity for production of voice in humans. PET studies also demonstrated differences in the processing of language, melody and rhythm by deaf cochlear implant recipients. fMRI studies have demonstrated unique patterns of brain activity in trained musicians processing rhythmic stimuli. A number of additional studies in which fMRI and electrophysiological methods are combined to study language processing in controls and aphasic are being prepared for publication. A series of studies evaluating recovery of function in a rodent model of stroke has recently begun. These investigations will utilize functional imaging (structural and functional MRI, PET, evoked potentials) and immunocytochemical methods to evaluate the correspondence of functional, structural and neurochemical changes in the course of recovery post-stroke. These studies will clarify the interpretation of data emerging from human imaging studies and provide a model in which we will evaluate novel clinical interventions.

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