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<<HTML(<TR><TD>)>>'''Instructors'''<<HTML(</TD><TD>)>>[[AboutUs/FrancoisTadel|Francois Tadel]] (Grenoble Institute of Neuroscience), Anne-Sophie Dubarry (Aix-Marseille University)<<HTML(</TD></TR>)>> | <<HTML(<TR><TD>)>>'''Instructors'''<<HTML(</TD><TD>)>>[[AboutUs/FrancoisTadel|Francois Tadel]] (Grenoble Institute of Neuroscience)<<BR>>[[https://www.linkedin.com/in/anne-sophie-dubarry-6a8a4a33/?locale=en_US|Anne-Sophie Dubarry]](Aix-Marseille University)<<HTML(</TD></TR>)>> |
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<<HTML(<TR><TD>)>>'''Audience'''<<HTML(</TD><TD>)>>Users interested in analyzing EEG/sEEG/ECoG/MEG recordings using Brainstorm.<<BR>>Some experience with EEG/MEG is recommended. Teaching in English. <<HTML(</TD></TR>)>> | <<HTML(<TR><TD>)>>'''Audience'''<<HTML(</TD><TD>)>>Users interested in analyzing sEEG/EEG/ECoG/MEG recordings using Brainstorm.<<BR>>Teaching in English. <<HTML(</TD></TR>)>> |
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== Requirements == The participants are required to <<HTML(<FONT color=red>)>> '''bring a laptop''' <<HTML(</FONT>)>> (an external mouse will add to your comfort). In order to make the session as efficient as possible, we ask all the attendees to <<HTML(<FONT color=red>)>>'''download, install and test'''<<HTML(</FONT>)>> the software and sample dataset on their laptops prior to the workshop. |
== Program == This session is based on a simplified version of the [[https://neuroimage.usc.edu/brainstorm/Tutorials/Epileptogenicity|SEEG/Epileptogenicity tutorial]]. |
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Please read carefully the following instructions:<<BR>>[[WorkshopParis2018Install|How to prepare your laptop for the training]] == Program: Day 1 == |
|
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<<HTML(<TR><TD>)>>10:00-10:45<<HTML(</TD><TD>)>>'''Practice''' | <<HTML(<TR><TD>)>>9:45-10:30<<HTML(</TD><TD>)>>'''Anatomy''' |
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MRI volumes, surfaces and anatomical atlases<<HTML(</TD></TR>)>> | MRI volumes, surfaces |
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<<HTML(<TR><TD>)>>10:45-11:00<<HTML(</TD><TD>)>>''Coffee break''<<HTML(</TD></TR>)>> | Coregistration of pre- and post-implantation images<<HTML(</TD></TR>)>> |
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<<HTML(<TR><TD>)>>11:00-12:30<<HTML(</TD><TD>)>>'''Practice''' | <<HTML(<TR><TD>)>>10:30-11:30<<HTML(</TD><TD>)>>'''SEEG recordings''' |
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Registration EEG/MRI Review of continuous EEG recordings |
Reviewing continuous SEEG recordings |
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Frequency filters | Marking SEEG contacts on post-implantation image |
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<<HTML(</TD></TR>)>> | Projecting SEEG recordings on MRI and cortex surface |
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<<HTML(<TR><TD>)>>12:30-13:30<<HTML(</TD><TD>)>>''Lunch''<<HTML(</TD></TR>)>> | <<HTML(<TR><TD>)>>11:30-12:15<<HTML(</TD><TD>)>>'''Epileptogenicity maps''' |
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<<HTML(<TR><TD>)>>13:30-14:30<<HTML(</TD><TD>)>>'''Practice''' | Importing epochs of interest in the database |
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Artifact detection | Time-frequency analysis: Identification of ictal HFO frequency bands |
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Artifact correction with ICA | Computation of epileptogenicity maps: Localization of the seizure onset zone |
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Averaging<<HTML(</TD></TR>)>> <<HTML(<TR><TD>)>>14:30-15:00<<HTML(</TD><TD>)>>'''Lecture: Source modeling (Baillet)'''<<HTML(</TD></TR>)>> <<HTML(<TR><TD>)>>15:00-15:30<<HTML(</TD><TD>)>>''Coffee break''<<HTML(</TD></TR>)>> <<HTML(<TR><TD>)>>15:30-17:30<<HTML(</TD><TD>)>>'''Practice''' Head modeling, cortical source reconstruction Regions of interest (ROIs) |
Estimation of the propagation pathways |
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<<BR>><<BR>> ---- = Prepare your laptop for the workshop (optional) = Computers will be available with Matlab and Brainstorm installed, however we recommend participants to bring a laptop. Setting up the software environment is an important part of the training and would be a good preparation step to this workshop. Follow the instructions below if you are insterested in following the hands-on session on your own laptop. == Important notes == * Working with MEG/EEG/SEEG recordings involves a lot of computational resources and large display windows. Therefore we recommend that you bring a laptop with a decent processing capacity, '''4Gb RAM''', a '''64bit''' operating system, and a '''screen larger than 13"'''. * You would add to your comfort by bringing an '''external mouse'''. Most of the manipulations are done with the mouse, and some involve an intensive use of the mouse wheel/scrolling. * Don't forget your '''power adapter'''! == Installation instructions == Before coming to the workshop, you need to download the software and the tutorial dataset from the Brainstorm website (220Mb). To streamline troubleshooting during the session, please save all the downloaded files '''__on your Desktop__'''. 1. From the Brainstorm [[http://neuroimage.usc.edu/bst/download.php|Download]] page, log in or create a Brainstorm account 1. Download the following files to '''your Desktop''' '''folder''': * '''Brainstorm software''': <<HTML(<FONT color=red>)>>brainstorm_YYMMDD.zip<<HTML(</FONT>)>> (70 Mb) * '''Tutorial dataset''': <<HTML(<FONT color=red>)>>workshop_cuttingeeg.zip<<HTML(</FONT>)>> (150 Mb) 1. If you already have Brainstorm, make sure that the version was released <<HTML(<FONT color=red>)>>'''after June 18th'''<<HTML(</FONT>)>>. 1. Unzip the two downloaded files on your desktop 1. Delete the two downloaded zip files 1. Create a folder "'''brainstorm_db'''" on your '''Desktop ''' 1. Final check: you should have now 3 folders on your desktop: * '''brainstorm3''': Program folder, with the source code and the compiled executable * '''brainstorm_db''': Brainstorm database (empty) * '''workshop_cuttingeeg''': Example dataset used during the training session 1. Run Brainstorm, to make sure it works correctly on your computer (read the following section) == Running Brainstorm for the first time == ==== With Matlab ==== 1. Matlab versions >= 2014b are faster and produce nicer graphics: consider upgrading if possible 1. Start Matlab 1. Do '''NOT '''add brainstorm3 folder to your Matlab path: this will be done automatically 1. Go to the brainstorm3 folder 1. Type "brainstorm" in the command window 1. When asked for the Brainstorm database folder, pick the "brainstorm_db" you have just created ==== Without Matlab ==== 1. The instructions below are valid for the following operating systems: * '''Windows''': Any version ([[http://www.mathworks.com/support/sysreq/files/SystemRequirements-Release2015b_Windows.pdf|details]]) * '''Linux''': Ubuntu 14.04+, RedHat 6.x+, Debian 7.x, SUSE 11.3+ ([[http://www.mathworks.com/support/sysreq/files/SystemRequirements-Release2015b_Linux.pdf|details]]) * '''MacOS''': 10.9.5 (Mavericks), 10.10 (Yosemite) ([[http://www.mathworks.com/support/sysreq/files/SystemRequirements-Release2015b_Macintosh.pdf|details]]) * If your system is older, try with another version: [[InstallationR2012b|2012b]], [[InstallationR2013b|2013b]], [[InstallationR2014b|2014b]], [[InstallationR2016a|2016a]], [[InstallationR2017a|R2017a]]... 1. Download the '''MCR R2015b (9.0)''' for your operating system: [[http://www.mathworks.com/products/compiler/mcr/|Mathworks website]] 1. Install the MCR: * __Windows__: Double-click on the .exe and follow the instructions * __MacOS__: Click on the zip file to unzip it, then click on "InstallForMacOSX" * __Linux__: From a terminal, unzip .zip, then run ./install 1. Run the program in brainstorm3/bin/R2015b/ * __Windows__: Double-click on ''brainstorm3.bat'' * __MacOS__: Double-click on ''brainstorm3.command ''and wait for instructions * __Linux__: From a terminal, run:<<BR>>''cd brainstorm3/bin/R2015b/''<<BR>>''./brainstorm3.command '' 1. Troubleshooting for MacOS or Linux: * On recent versions of MacOS, you may get an error message "Application can't be opened because it is from an unidentified developer". This message would appear for all the programs that were not downloaded from the Apple app-store. To go around this verification: right-click on the application > Open, then click on the Open button. * From a terminal, make sure that the file "''brainstorm3.command''" is executable:<<BR>>''chmod a+x brainstorm3.command'' * If nothing happens, run: <<BR>>''./brainstorm3.command MCR_DIR''<<BR>>MCR_DIR is the MCR 9.0 folder (ex: /Applications/MATLAB/MCR/v90) * Try with another binary release: [[InstallationR2012b|2012b]], [[InstallationR2013b|2013b]], [[InstallationR2014b|2014b]][[http://neuroimage.usc.edu/brainstorm/InstallationR2016a|, 2016a]], [[InstallationR2017a|2017a]]... 1. Troubleshooting for Windows: * Your current user may not have the necessary privileges. If you are an administrator for your computer, you can do the following: right-click on ''brainstorm3.bat'' > Run as administrator. * If you are not the administrator of your computer and Matlab or the MCR are not installed in the standard paths, Brainstorm may have trouble finding them. To specify manually the path of the MCR or Matlab folder, right-click on ''brainstorm3.bat'' > Edit. Fill the second line of the script (Example: @SET MATLABROOT="C:\Program Files\MATLAB\R2015b"), save the file, and try to execute it again. 1. On Linux or MacOS, you may be asked to select the folder where you installed the MCR. 1. When asked for the Brainstorm database folder, pick the "brainstorm_db" you have just created. == Make sure it works == In order to check if Brainstorm works properly or your computer, please follow these instructions: * Create a new protocol: Menu File > New protocol.<<BR>>Set the name to "Test", don't change the other default options. * In the folder "Default anatomy", double-click successively on the files: MRI, head, cortex_15002V * It should open the figures below, make sure they work correctly: * Click in the MRI Viewer to move the slices * Click+move your mouse in the 3D figure to rotate * Zoom in/out with the mouse wheel or the two-finger scroll on MacBook pads * The head surface should be transparent, with the brain visible through it {{attachment:test_bst.gif}} == Troubleshooting == For any technical problem, please contact Francois Tadel ( francois.tadel@mcgill.ca ) |
Paris, France: July 2, 2018
Half-day introduction to SEEG/ECOG analysis, as part of the CutingEEG symposium.
General information
Where | Telecom ParisTech |
When | Monday July 2nd, 2018: 8:30-12:15 |
Instructors | Francois Tadel (Grenoble Institute of Neuroscience) Anne-Sophie Dubarry(Aix-Marseille University) |
Audience | Users interested in analyzing sEEG/EEG/ECoG/MEG recordings using Brainstorm. Teaching in English. |
Slides | Introduction |
Program
This session is based on a simplified version of the SEEG/Epileptogenicity tutorial.
8:30-9:15 | Onsite assistance in installing the material for the training session |
9:15-9:45 | Lecture: Brainstorm overview (Tadel) Software structure, typical data workflow |
9:45-10:30 | Anatomy Database explorer MRI volumes, surfaces Coregistration of pre- and post-implantation images |
10:30-11:30 | SEEG recordings Reviewing continuous SEEG recordings Montages and management of event markers Marking SEEG contacts on post-implantation image Projecting SEEG recordings on MRI and cortex surface |
11:30-12:15 | Epileptogenicity maps Importing epochs of interest in the database Time-frequency analysis: Identification of ictal HFO frequency bands Computation of epileptogenicity maps: Localization of the seizure onset zone Estimation of the propagation pathways |
Prepare your laptop for the workshop (optional)
Computers will be available with Matlab and Brainstorm installed, however we recommend participants to bring a laptop. Setting up the software environment is an important part of the training and would be a good preparation step to this workshop. Follow the instructions below if you are insterested in following the hands-on session on your own laptop.
Important notes
Working with MEG/EEG/SEEG recordings involves a lot of computational resources and large display windows. Therefore we recommend that you bring a laptop with a decent processing capacity, 4Gb RAM, a 64bit operating system, and a screen larger than 13".
You would add to your comfort by bringing an external mouse. Most of the manipulations are done with the mouse, and some involve an intensive use of the mouse wheel/scrolling.
Don't forget your power adapter!
Installation instructions
Before coming to the workshop, you need to download the software and the tutorial dataset from the Brainstorm website (220Mb). To streamline troubleshooting during the session, please save all the downloaded files on your Desktop.
From the Brainstorm Download page, log in or create a Brainstorm account
Download the following files to your Desktop folder:
Brainstorm software: brainstorm_YYMMDD.zip (70 Mb)
Tutorial dataset: workshop_cuttingeeg.zip (150 Mb)
If you already have Brainstorm, make sure that the version was released after June 18th.
- Unzip the two downloaded files on your desktop
- Delete the two downloaded zip files
Create a folder "brainstorm_db" on your Desktop
- Final check: you should have now 3 folders on your desktop:
brainstorm3: Program folder, with the source code and the compiled executable
brainstorm_db: Brainstorm database (empty)
workshop_cuttingeeg: Example dataset used during the training session
- Run Brainstorm, to make sure it works correctly on your computer (read the following section)
Running Brainstorm for the first time
With Matlab
Matlab versions >= 2014b are faster and produce nicer graphics: consider upgrading if possible
- Start Matlab
Do NOT add brainstorm3 folder to your Matlab path: this will be done automatically
- Go to the brainstorm3 folder
- Type "brainstorm" in the command window
- When asked for the Brainstorm database folder, pick the "brainstorm_db" you have just created
Without Matlab
- The instructions below are valid for the following operating systems:
Download the MCR R2015b (9.0) for your operating system: Mathworks website
- Install the MCR:
Windows: Double-click on the .exe and follow the instructions
MacOS: Click on the zip file to unzip it, then click on "InstallForMacOSX"
Linux: From a terminal, unzip .zip, then run ./install
- Run the program in brainstorm3/bin/R2015b/
Windows: Double-click on brainstorm3.bat
MacOS: Double-click on brainstorm3.command and wait for instructions
Linux: From a terminal, run:
cd brainstorm3/bin/R2015b/
./brainstorm3.command
- Troubleshooting for MacOS or Linux:
On recent versions of MacOS, you may get an error message "Application can't be opened because it is from an unidentified developer". This message would appear for all the programs that were not downloaded from the Apple app-store. To go around this verification: right-click on the application > Open, then click on the Open button.
From a terminal, make sure that the file "brainstorm3.command" is executable:
chmod a+x brainstorm3.commandIf nothing happens, run:
./brainstorm3.command MCR_DIR
MCR_DIR is the MCR 9.0 folder (ex: /Applications/MATLAB/MCR/v90)Try with another binary release: 2012b, 2013b, 2014b, 2016a, 2017a...
- Troubleshooting for Windows:
Your current user may not have the necessary privileges. If you are an administrator for your computer, you can do the following: right-click on brainstorm3.bat > Run as administrator.
If you are not the administrator of your computer and Matlab or the MCR are not installed in the standard paths, Brainstorm may have trouble finding them. To specify manually the path of the MCR or Matlab folder, right-click on brainstorm3.bat > Edit. Fill the second line of the script (Example: @SET MATLABROOT="C:\Program Files\MATLAB\R2015b"), save the file, and try to execute it again.
- On Linux or MacOS, you may be asked to select the folder where you installed the MCR.
- When asked for the Brainstorm database folder, pick the "brainstorm_db" you have just created.
Make sure it works
In order to check if Brainstorm works properly or your computer, please follow these instructions:
Create a new protocol: Menu File > New protocol.
Set the name to "Test", don't change the other default options.- In the folder "Default anatomy", double-click successively on the files: MRI, head, cortex_15002V
- It should open the figures below, make sure they work correctly:
- Click in the MRI Viewer to move the slices
- Click+move your mouse in the 3D figure to rotate
Zoom in/out with the mouse wheel or the two-finger scroll on MacBook pads
- The head surface should be transparent, with the brain visible through it
Troubleshooting
For any technical problem, please contact Francois Tadel ( francois.tadel@mcgill.ca )