3349
Comment:
|
5233
|
Deletions are marked like this. | Additions are marked like this. |
Line 1: | Line 1: |
= Tutorials = == Important notes == * In all the tutorials, we will consider that you are working with the source distribution of Brainstorm, as it is the recommanded way to use this toolbox. * If you are working with compiled binaries, some menus might be missing, but everything else should work the same way. * Before starting using Brainstorm with your own data, you should go through __all __the tutorials in "Getting started with Brainstorm" section. |
= Brainstorm Tutorials = The following pages will take you through a typical workflow of data analyses that will feature most of the tools and applications of Brainstorm. We are updating these pages constantly, keeping up with new developments and features in the software. You are therefore welcome to suggest improvements and additions but also to contribute by becoming an editor of this wiki. Please [[mailto:brainstorm@sipi.usc.edu|email us]] if you would like to contribute. |
Line 7: | Line 4: |
In just a few hours, they will introduce you to most of the main features of the application. | == Required background == These tutorial pages suppose you are comfortable with the basic concepts of MEG and EEG source imaging. If you're not, we engage you to read some background information, which will quickly help you getting up to speed with this field: |
Line 9: | Line 7: |
* If you want a printed version of this documentation: * Open a tutorial, go to the menu on top of the page, * Select ''More actions > Print view'', print the page, * Click on the ''Back ''button of your browser, and go to next tutorial. |
* A non-technical overview of MEG and EEG, with an emphasis on source modeling: [[http://www.canada-meg-consortium.org/EN/MegIntro|here]], |
Line 14: | Line 9: |
== Getting started with Brainstorm == === Dataset description === The dataset that will be used for tutorials #2 to #10 is a somatotopy experiment realized with a CTF MEG. |
* Slides from a selection of educational courses at [[http://megcommunity.org/index.php?option=com_content&view=article&id=27&Itemid=13|megcommunity.org]], |
Line 18: | Line 11: |
Please download bst_sample_ctf.zip from the [[http://neuroimage.usc.edu/brainstorm3_register/download.php|Download]] section. Unzip it in a folder you will dedicate to original data. It can be any where but __not__ in the Brainstorm database or program folder. Example: | * Reference books: * Peter Hansen, Morten Kringelbach, and Riitta Salmelin (Eds)<<BR>>[[http://www.amazon.com/MEG-Introduction-Methods-Peter-Hansen/dp/0195307232/ref=sr_1_1?ie=UTF8&qid=1324419425&sr=8-1|MEG: An Introduction to Methods]], ''Oxford University Press'', (29 July 2010), 448 pages, ISBN-13: 978-0195307238 |
Line 20: | Line 14: |
* Windows: My documents\MEG\sample_ctf\ * Linux: /home/username/MEG/sample_ctf/ * MacOS: Documents/MEG/sample_ctf/ |
* Jean Decety & John T. Cacioppo (Eds)<<BR>>[[http://www.amazon.com/Oxford-Handbook-Neuroscience-Library-Psychology/dp/019534216X/ref=sr_1_3?s=books&ie=UTF8&qid=1324419480&sr=1-3|The Oxford Handbook of Social Neuroscience]]'', Oxford University Press'', (Sept 2011), 1128 pages, ISBN-10: 019534216X.<<BR>>A draft version of the MEG chapter by Sylvain Baillet can be found [[attachment:BailletMEGDraft.pdf|here]]. |
Line 24: | Line 16: |
||<width="150px" style="vertical-align: top;">File: ||'''bst_sample_ctf.zip''' || ||<style="vertical-align: top;">Acquisition system: ||CTF MEG, 151 axial gradiometers, La Salpetriere Hospital, Paris || ||<style="vertical-align: top;">Protocol: ||Shuffled electrical stimulations of the thumb fingers from both hands. The idea is to get a map of the primary sensory response on the cortex || ||<style="vertical-align: top;">Author: ||Data provided courtesy of Sabine Meunier || ||<style="vertical-align: top;">Anatomy directory: ||- T1-MRI of the subject in CTF format (.mri). - Cortex and head surfaces extracted with BrainVISA software || ||<style="vertical-align: top;">Datasets directory: ||- somMGYO-18av.ds: average response for the stimulation of the right thumb (one subject, 400 trials) . - somMDYO-18av.ds: average response for the stimulation of the left thumb (one subject, 400 trials) || ||<style="vertical-align: top;">Observations: ||Stimulus occurs at time 0. There's a first tiny wave occuring at about 20ms or so but it's not too clear on all fingers. So if you are to compute cortical maps, start by the 40ms peak which is also of interest and which has much better SNR. || |
* You can also ask us to come and organize a [[Training|training session]] at your institution, or [[http://www.bic.mni.mcgill.ca/ResearchLabsNeuroSPEED/HomePage|visit us]] to obtain training (!McGill's Montreal Neurological Institute). |
Line 32: | Line 18: |
Now you are well equipped to go through the software tutorial, '' Enjoy! '' | |
Line 33: | Line 20: |
== Get started: 12 easy steps through Brainstorm == The easiest way to get started with Brainstorm is to follow carefully those 12 introduction tutorials. In just a few hours, you will be introduced to the essential features of the application. |
|
Line 34: | Line 23: |
You will find a report form at the end of each tutorial, please share your comments to help us improve the documentation and the software. | |
Line 35: | Line 25: |
=== Step by step tutorials === * [[BstFolders|0. Introduction to Brainstorm structure]] * [[Tutorials/TutFirstSteps|1. First steps]] * [[Tutorials/TutImportAnatomy|2. Importing individual anatomy]] * [[Tutorials/TutImportRecordings|3. Importing recordings]] * [[Tutorials/TutExploreRecodings|4. Exploring the recordings]] * [[Tutorials/TutHeadModel|5. Computing a head model]] * [[Tutorials/TutNoiseCov|6. Computing a noise covariance matrix]] * [[Tutorials/TutSourceEstimation|7. Source estimation]] * [[Tutorials/TutScouts|8. Scouts: cortical regions of interest]] * [[Tutorials/TutProcesses|9. Processes: Graphical batching interface]] |
If you need a printed version of a page, click on the "print" link at the top-right corner of the page. However, note that those pages are updated with the software, and cannot be kept as long term reference documentation. |
Line 47: | Line 27: |
== Other useful tutorials == 1. [[CiteBrainstorm|Cite Brainstorm in your publications]] |
1. [[Tutorials/BstFolders|Brainstorm architecture]] 1. [[Tutorials/TutFirstSteps|First steps]] 1. [[Tutorials/TutImportAnatomy|Importing individual anatomy]] 1. [[Tutorials/TutImportRecordings|Importing MEG recordings]] 1. [[Tutorials/TutExploreRecodings|Exploring the recordings]] 1. [[Tutorials/TutHeadModel|Head model]] 1. [[Tutorials/TutNoiseCov|Noise covariance]] 1. [[Tutorials/TutSourceEstimation|Source estimation]] 1. [[Tutorials/TutScouts|Scouts]] 1. [[Tutorials/TutProcesses|Graphical scripting]] 1. [[Tutorials/TutStat|Statistics]] 1. [[Tutorials/TutTimefreq|Time-frequency]] == Advanced tutorials == === Processing continuous recordings === 1. [[Tutorials/TutRawViewer|Review continuous recordings and edit markers]] [2:00 hr] 1. [[Tutorials/TutRawSsp|Detect and remove artifacts]] [2:00 hr] 1. [[Tutorials/TutRawAvg|Epoching and averaging]] [1:30 hr] === Anatomy and registration === 1. [[CoordinateSystems|Brainstorm coordinate systems]] 1. [[Tutorials/LabelFreeSurfer|MRI segmentation: FreeSurfer]] 1. [[Tutorials/SegBrainVisa|MRI segmentation: BrainVISA]] 1. [[Tutorials/SegBrainSuite|MRI segmentation: BrainSuite]] 1. [[Tutorials/TutWarping|Warping default anatomy]] 1. [[Tutorials/TutDigitize|Digitize EEG electrodes and head shape]] 1. [[Tutorials/TutRealtime|Realtime head positioning in the CTF MEG system]] === Graphical scripting === 1. [[Tutorials/RefProcesses|Description of all the processes]] 1. [[Tutorials/TutRawScript|Full analysis with one script]] 1. [[RefWriteProcess|How to write your own process]] === Source modeling === 1. [[Tutorials/TutBem|BEM with OpenMEEG]] 1. [[Tutorials/TutVolSource|Volumetric source estimation]] 1. [[Tutorials/TutXfit|Dipole models from Neuromag's Xfit and CTF's DipoleFit]] === Other types of recordings === 1. [[Tutorials/TutMindNeuromag|Neuromag raw recordings]] [Not up to date] === Other useful how-to's === 1. [[CiteBrainstorm|How to cite Brainstorm in your publications]] 1. [[CoordinateSystems|Coordinate systems]] 1. [[Tutorials/KnownBugs|Known bugs]] === Examples === 1. This video illustrates how Brainstorm can be used for studying amygdala activity:<<BR>>[[http://www.jove.com/video/50212/how-to-detect-amygdala-activity-with-magnetoencephalography-using?status=a52218k|How to Detect Amygdala Activity with Magnetoencephalography using Source Imaging]] <<BR>>Authors: Balderston NL, Schultz DH, Baillet S, Helmstetter FJ |
Brainstorm Tutorials
The following pages will take you through a typical workflow of data analyses that will feature most of the tools and applications of Brainstorm. We are updating these pages constantly, keeping up with new developments and features in the software. You are therefore welcome to suggest improvements and additions but also to contribute by becoming an editor of this wiki. Please email us if you would like to contribute.
Required background
These tutorial pages suppose you are comfortable with the basic concepts of MEG and EEG source imaging. If you're not, we engage you to read some background information, which will quickly help you getting up to speed with this field:
A non-technical overview of MEG and EEG, with an emphasis on source modeling: here,
Slides from a selection of educational courses at megcommunity.org,
- Reference books:
Peter Hansen, Morten Kringelbach, and Riitta Salmelin (Eds)
MEG: An Introduction to Methods, Oxford University Press, (29 July 2010), 448 pages, ISBN-13: 978-0195307238Jean Decety & John T. Cacioppo (Eds)
The Oxford Handbook of Social Neuroscience, Oxford University Press, (Sept 2011), 1128 pages, ISBN-10: 019534216X.
A draft version of the MEG chapter by Sylvain Baillet can be found here.
You can also ask us to come and organize a training session at your institution, or visit us to obtain training (McGill's Montreal Neurological Institute).
Now you are well equipped to go through the software tutorial, Enjoy!
Get started: 12 easy steps through Brainstorm
The easiest way to get started with Brainstorm is to follow carefully those 12 introduction tutorials. In just a few hours, you will be introduced to the essential features of the application.
You will find a report form at the end of each tutorial, please share your comments to help us improve the documentation and the software.
If you need a printed version of a page, click on the "print" link at the top-right corner of the page. However, note that those pages are updated with the software, and cannot be kept as long term reference documentation.
?Brainstorm architecture
?First steps
?Importing individual anatomy
?Importing MEG recordings
?Exploring the recordings
?Head model
?Noise covariance
?Source estimation
?Scouts
?Graphical scripting
?Statistics
?Time-frequency
Advanced tutorials
Processing continuous recordings
?Review continuous recordings and edit markers [2:00 hr]
?Detect and remove artifacts [2:00 hr]
?Epoching and averaging [1:30 hr]
Anatomy and registration
Graphical scripting
Source modeling
?Dipole models from Neuromag's Xfit and CTF's DipoleFit
Other types of recordings
Neuromag raw recordings [Not up to date]
Other useful how-to's
Examples
This video illustrates how Brainstorm can be used for studying amygdala activity:
How to Detect Amygdala Activity with Magnetoencephalography using Source Imaging
Authors: Balderston NL, Schultz DH, Baillet S, Helmstetter FJ