Predicting brain atrophy from resting-state functional connectivity and structural connectivity in ischemic stroke (P5.297)

Conclusions:Resting-state functional connectivity with the lesion location can predict atrophy of remote brain regions after ischemic stroke, independent of structural white-matter connectivity.Study Supported by: M.D.F. was supported by the National Institutes of Health (R21 MH099196, K23 NS083741), Dystonia Medical Research Foundation, National Parkinson’s Foundation, and NFL Players Association. A.J. was supported by a Postdoctoral Fellowship from the Natural Sciences and Engineering Research Council of Canada (NSERC PDF 454617). A.D.B. was supported by 4K12HD027748-24.Disclosure: Dr. Jannati has nothing to disclose. Dr. Boes has nothing to disclose. Dr. Horn has nothing to disclose. Dr. Pascual-Leone has received personal compensation for activities with Magstim, Nexstim, Neuronix, Starlab Neuroscience, Neuroelectrics, Axilum Robotics, and Neosync as a member of scientific advisory boards. Dr. Pascual-Leone has received personal compensation in an editorial capacity for the Annals of Neurology and the European Journal of Neuroscience. Dr. Kuceyeski has nothing to disclose. Dr. Fox has nothing to disclose.
Source: Neurology - Category: Neurology Authors: Tags: Stroke Recovery and Rehabilitation Source Type: research