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Σάββατο 11 Φεβρουαρίου 2017

iELVis: An open source MATLAB toolbox for localizing and visualizing human intracranial electrode data

Publication date: Available online 10 February 2017
Source:Journal of Neuroscience Methods
Author(s): David M. Groppe, Stephan Bickel, Andrew R. Dykstra, Xiuyuan Wang, Pierre Mégevand, Manuel R. Mercier, Fred A. Lado, Ashesh D. Mehta, Christopher J. Honey
BackgroundIntracranial electrical recordings (iEEG) and brain stimulation (iEBS) are invaluable human neuroscience methodologies. However, the value of such data is often unrealized as many laboratories lack tools for localizing electrodes relative to anatomy. To remedy this, we have developed a MATLAB toolbox for intracranial electrode localization and visualization, iELVis.New methodiELVis uses existing tools (BioImage Suite, FSL, and FreeSurfer) for preimplant magnetic resonance imaging (MRI) segmentation, neuroimaging coregistration, and manual identification of electrodes in postimplant neuroimaging. Subsequently, iELVis implements methods for correcting electrode locations for postimplant brain shift with millimeter-scale accuracy and provides interactive visualization on 3D surfaces or in 2D slices with optional functional neuroimaging overlays. iELVis also localizes electrodes relative to FreeSurfer-based atlases and can combine data across subjects via the FreeSurfer average brain.ResultsIt takes 30–60min of user time and 12–24h of computer time to localize and visualize electrodes from one brain. We demonstrate iELVis's functionality by showing that three methods for mapping primary hand somatosensory cortex (iEEG, iEBS, and functional MRI) provide highly concordant results.Comparison with existing methodsiELVis is the first public software for electrode localization that corrects for brain shift, maps electrodes to an average brain, and supports neuroimaging overlays. Moreover, its interactive visualizations are powerful and its tutorial material is extensive.ConclusionsiELVis promises to speed the progress and enhance the robustness of intracranial electrode research. The software and extensive tutorial materials are freely available as part of the EpiSurg software project: http://ift.tt/2lBv4WJ.



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