Area:
epilepsy, EEG, fMRI
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High-probability grants
According to our matching algorithm, John Stern is the likely recipient of the following grants.
Years |
Recipients |
Code |
Title / Keywords |
Matching score |
2004 — 2008 |
Stern, John M |
K23Activity Code Description: To provide support for the career development of investigators who have made a commitment of focus their research endeavors on patient-oriented research. This mechanism provides support for a 3 year minimum up to 5 year period of supervised study and research for clinically trained professionals who have the potential to develop into productive, clinical investigators. |
Simutaneous Fmri and Eeg of Epileptogenic Brain Regions @ University of California Los Angeles
[unreadable] DESCRIPTION (provided by applicant): The proposed study will provide the candidate a five year opportunity to further develop his research skills and to focus his efforts on the functional magnetic resonance imaging (fMRI) and electroencephalography (EEG) research that he has conducted with his sponsors since 1995. The study's ultimate goal is to evaluate simultaneous fMRI and EEG (fMRI/EEG) recordings as a means to accurately localize primary epileptogenic regions, the regions responsible for seizures. The importance of this rests in the current absence of any technique for accurate epileptogenic region localization, and the potential clinical benefit of such localization for the hundreds of thousands of people in the United States alone whose seizures are refractory to current treatments. fMRI/EEG is a new technique in human brain mapping that depicts highly localized cerebrovascular changes as occur during epileptic discharges on EEG. Because fMRI/EEG is sensitive to metabolic characteristics, it potentially may distinguish the primary epileptogenic region through its metabolic difference from other regions. Our approach will employ statistical comparisons between fMRI/EEG results and the results of multiple other assessments available to our epilepsy surgery program. These assessments include scalp EEG, intracranial EEG, EEG source modeling, magnetoencephalography, tissue pathology, epilepsy surgery evaluation outcome, and epilepsy surgery outcome. Overall, the study capitalizes upon an especially strong environment with established infrastructures in clinical epilepsy, epilepsy research and human brain mapping. The candidate's academic position spans UCLA's Brain Mapping Center and Seizure Disorder Center, and the sponsors are the respective directors of the fMRI and epilepsy programs. With a background of graduate research in nuclear magnetic resonance and fellowship training in clinical epilepsy, the candidate is developing a career in clinical research focused on the application of human brain mapping techniques toward epilepsy. [unreadable] [unreadable]
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