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## page was renamed from Tutorials/TutFirstStart = Tutorials: First steps = |
= Tutorial 1: First steps = |
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<<TableOfContents(2)>> | <<TableOfContents(2,2)>> |
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== Running Brainstorm for the first time == 1. Start Matlab, go to brainstorm3 directory, and type "brainstorm3" in Matlab command window. 1. With some Matlab installations, you may observe an error message in the command window, about the compilation of the MEX files. Some files from the permutation tests functions need to be compiled on your own operating system, and you may not be able to use some statistical tests if you have such an error. You may ignore this problem, it will be fixed later. 1. The ''Licence Agreement'' will be display. Read the licence file, and click on "Agree" if you agree with it. 1. If you have two screens on your computer, you may have a message asking if you want to use your second screen. You can try to say yes: you will have the Brainstorm window on primary screen and the data figures on the secondary one). If does not work properly, go to the menu Options > GUI, and uncheck the menu "Use two screens when available". 1. Then you will be asked to specify Brainstorm database directory. Read carefully the ''Important notes'' and then create or select an empty directory to store your Brainstorm database (for instance "''brainstorm_database''", or "''brainstorm_protocols''"). 1. After a last message asking you to create or load a protocol, you should see the main Brainstorm window |
== Starting Brainstorm for the first time == 1. Start Matlab, go to brainstorm3 directory, and type "brainstorm" in Matlab command window. 1. You may observe an error message in the command window about the compilation of the MEX files. You can ignore this problem for now, and maybe try to fix it later. 1. Read and accept the licence file. 1. Specify Brainstorm database directory. Read carefully what is written in previous section. Safe choices are for example: * '''Windows''': My documents\brainstorm_db * '''Linux''': /home/username/brainstorm_db * '''MacOS''': Documents/brainstorm_db |
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1. Click on the ''Protocol selection'' drop list, and select ''Create new protocol''. 1. Edit the protocol name and enter: "!TutorialFirstSteps". It will automatically update the paths (''Anatomy path'' and ''Datasets path''. 1. Select the "''MNI Colin27''" as the default anatomy. * This anatomy (MRI & surfaces) will be available if needed by all the subjects in the protocol. * This can be changed later, using the "''Use default''" menu in the subjects' popup menu. |
1. Click on the File menu, and select, and select ''New protocol''.<<BR>><<BR>> {{attachment:menuFile.gif}} 1. Edit the protocol name and enter: "!TutorialFirstSteps". It will automatically update the paths (''Anatomy path'' and ''Datasets path''). |
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1. ''Subjects configuration'' panel: * These are the default settings that will be applied when creating new subjects. It is then possible to override those settings for each subject. |
1. ''Default properties for the subjects'': * These are the default settings that are usedwhen creating new subjects. It is then possible to override those settings for each subject individually. |
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* The option selected for ''Default channel file'' is not important because we are not going to import recordings (and channel files, ie. files that describe each sensor: position, orientation, name...) | * The option selected for ''Default channel file'' is not important because we are not going to import recordings (and channel files, ie. files that describe each sensor: position, orientation, name...). This point will be described in another tutorial. |
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1. Once you get something like the following figure, click on ''Create''.<<BR>> {{attachment:createNewProtocol.gif}} | 1. Once you get something like the following figure, click on ''Create''.<<BR>><<BR>> {{attachment:createNewProtocol.gif}} |
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1. Confirm that you want to create the directories | 1. The ''MRI Viewer'' window opens automatically and displays the Colin27 brain, and a message box informs you that you should select some points on the MRI. Those fiducial points are used to register the MRI with the MEG or EEG sensors, when you import recordings. We don't need to define them now, because we are not going to import any recordings in this turorial, but let's play with the MRI Viewer |
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1. The ''MRI Viewer'' window opens automatically and displays the Colin27 brain, and a message box informs you that you should select some points on the MRI. Those fiducial points are used to register the MRI with the MEG or EEG sensors, when you import recordings. We don't need to define them now, because we are not going to import any recordings in this turorial, but let's play with the MRI Viewer Viewer. <<BR>> {{attachment:mriViewer.gif}} | == Fiducials selection (MRI Viewer) == MRI Viewer window: |
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1. * You can navigate through the volume by clicking anywhere in the slices, or by using the sliders below each image. * There are four small buttons above each image. They may be useful when you import your own MR volumes, if they are not oriented in the way Brainstorm want them (e.g. you see the ''Sagittal ''title on top of the coronal view; or the small white "''P''", which is supposed to indicate the posterior part of the head, points the nose). Leave your mouse a few seconds over button one to read their description tooltip. Click on them and try to understand what they are doing. |
* {{attachment:mriViewer.gif}} * You can navigate through the volume by clicking anywhere in the slices, or by using the sliders below each image. * Once you have clicked on any orientation, you can use the mouse wheel to move to the next/previous slice in the same orientation. * There are three small buttons above each image. They may be useful when you import your own MR volumes, if they are not oriented in the way Brainstorm wants them (e.g. you see the ''Sagittal ''title on top of the coronal view; or the small white "''P''", which is supposed to indicate the posterior part of the head, points the nose). Leave your mouse a few seconds over any button to read its description tooltip. Click on them and try to understand what they are doing. * Image contrast can be changed with the mouse: click and hold the right button on one image, and move your mouse up and down (this operation will be later referred as ''right-click+move''). * Right-clicking in any view shows a popup menu that will be described in the following tutorials. * You can define six points on the MRI: * Three to define the [[CoordinateSystems|Subject Coordinate System (SCS)]]: Nasion (NAS), Left pre-auricular point (LPA), Right pre-auricular point (RPA), * Three to define the [[CoordinateSystems|Talairach coordinate system]] (referred here as ''Normalized CS''): Anterior commissure (AC), Posterior commissure (PC), and any Interhemispheric point (IH).<<BR>> => To know more about [[CoordinateSystems|how to define the fiducial points]]. * To define a point, position the three views at the point your want to define (pointed by the 3 crosses), and click on the ''Set ''button. Later you can click on ''View ''to move the views to this point again. |
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* Images' contrast can be changed with the mouse: click and hold the right button on one image, and move your mouse up and down (this operation will be later referred as ''right-click+move''). | * You can see that all the points are already defined on this MRI, but you should always check their positions. For many reasons, each research group has a different way to define those points. So you may not position the ears or the nasion exactly the same way as we do. Do not hesitate to move the fiducials to better fit your needings; if not the results might be much less accurate. |
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* You can define six points on the MRI: * Three to define the [[CoordinateSystems|Subject Coordinate System (SCS)]]: Nasion (NAS), Left pre-auricular point (LPA), Right pre-auricular point (RPA), |
* The ''Display options'' panel allows to hide some of the components. If the ''MIP/Anatomy ''checkbox is selected, the Maximum Intensity Power is displayed instead of the regular slices: At each point, the value displayed is the maximum value across all the slices. |
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* Three to define the[[CoordinateSystems|Talairach coordinate system]] (referred here as ''Normalized CS''): Anterior commissure (AC), Posterior commissure (PC), and any Interhemispheric point (IH). | * The ''Coordinates ''panel shows the (x,y,z) coordinates in all the coordinate systems managed by Brainstorm: MRI, SCS, and Talairach. |
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* => To know more about [[CoordinateSystems|how to define the fiducial points]]. | * Once you're done, click on ''Cancel ''(unless you really want to save all your experimentations). |
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* To define a point, position the three views a the point your want to define (pointed by the 3 crosses), and click on the ''Set ''button. Later you can click on ''View ''to move the views to this point again. | == Protocol exploration == The protocol is created and you can now see it in the database explorer, in the Brainstorm window. It is represented by the top-most node in the tree. |
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* You can see that all the points are already defined on this MRI, but you should '''always '''check their positions. For many reasons, each research group has a different way to define those points. So you may not position the ears or the nasion exactly the same way as we do. So do not hesitate to move the fiducials to better fit your needings; if not the results might be much less accurate. | . {{attachment:treeNewProtocol.gif}} |
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* The coordinates panel shows the (x,y,z) coordinates in all the coordinate systems managed by Brainstorm: MRI, SCS, and Talairach. | * You can switch between anatomy and functional data with the first three buttons in the toolbar. They are no subjects in the database yet, so the ''Functional data'' views are empty. However, in the ''Anatomy ''view, there is a ''(Default anatomy)'' node; it contains the MRI and the surfaces that can be used by default for the subjects without individual anatomy. |
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* Once you're done, click on ''Cancel ''(unless you really want to save all your experimentations). | * The default anatomy used in Brainstorm is based on the ''Colin27 ''MRI volume provided by the Montreal Neurological Institute (MNI): an average of 27 T1-weighted scans of Colin Holmes brain ([[http://www.bic.mni.mcgill.ca/~louis/stx_history.html|more info]]). The surfaces here were extracted from this average MRI with respectively BrainVISA, BrainSuite and FreeSurfer. |
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1. The protocol is created and you can now see it in the database explorer, in Brainstorm window. | * Display the ''Anatomy ''view, and click on the small "+" to expand the contents of the ''(Default anatomy)'' node. There is one MRI and several surfaces, identified by different icons. * Everything you can do with a node (anatomy files, subjects, protocol) is accessible by right-clicking on it. Take 15 minutes to explore all the popup menus by yourself. Don't be afraid of clicking anywhere, at this point you cannot damage anything. * If you explored well, you should have found the "''New subject''" menu in the protocol's popup menu. Click on it. ||<tablewidth="200px"#ffffff style="vertical-align:top; "> {{attachment:menuNewSubject.gif}} || {{attachment:createNewSubject.gif}} || * Usually, the only thing you need to do here is to edit the name of the subject. * But you can also override here the protocol's defaults regarding the sharing of anatomy and channel file between subjects and conditions. For the example, leave selected the "''Yes, use default anatomy''" option. Then click on ''Save''. * You should see a the new subject in both ''Anatomy ''and ''Functional data'' views. * In the Anatomy view, the subject node only contains a link called (Default anatomy). It is here just to remind that the subject is using the default ''MNI Colin27'' anatomy.<<BR>> {{attachment:subjectDefaultAnat.gif}} == MRI visualization == There are three different ways to display the MR volumes. Right click on the ''T1-MRI'' in ''Default anatomy'', menu ''Display''. <<BR>>Just click everywhere and try all the options by yourself, it is the best way to learn.<<BR>><<BR>> {{attachment:popupMri.gif}} ==== MRI Viewer ==== Already introduced in this tutorial. Note: it is the default visualization mode; when you double-click on the T1-MRI file, it brings up the MRI Viewer. ==== Axial / coronal / sagittal slices ==== {{attachment:mriSlicesContact.gif||height="231",width="210"}} * Zoom: mouse wheel * Move in zoomed image: click + move * Adjust contrast: right click + move up/down * Colormap selection in menu * Save as image in menu ==== 3D orthogonal slices ==== ||<tablewidth="200px"> {{attachment:mriSlices3d.gif||height="229",width="292"}} || {{attachment:menuShortcut.gif}} || * Simple mouse operations * '''Rotate''': click + move * '''Zoom''': mouse wheel * '''Move object''': left+right click + move * '''Move MRI slices''': right click + move along direction of the slice (or ''Resect ''panel in ''Surfaces ''tab) * '''Colormap contrast/brightness''': click on the colorbar, and move up/down (brightness) or left/right (contrast) * '''Reset view''': double click * Popup operations (right-click on the figure) * '''Colormap''': Full ''Anatomy ''colormap edition (detailed in next tutorial) * '''MRI Display''': For now, contains only the MIP option (Maximum Intensity Power). If checked, for each orientation: displays the maximum along all the slices instead of the proper slice. * '''Get coordinates''': Pick a point in any 3D view and get its coordinates * '''Snapshots''': save images or movies from this figure * '''Figure''': change background color, display axes and menus for an advanced figure editing and management using Matlab tools. * '''Views''': configure camera position with pre-defined settings. * Keyboard shortcuts: * Notice the indications in the right part of the popup menu (''CTRL+A'' in front of ''Figures>Axes'', ''"1"'' in front of ''Views>Left''), they represent the keyboard shortcut for each menu. * Views shortcuts (0,1,2...9 and "="): Remember them, they will be very useful when exploring the cortical sources. It is much faster to press a key to switch from left to right hemisphere, than having to rotate the brain with the mouse. * Surfaces tab (in the Brainstorm main window): * This panel is dedicated to the surfaces display, but some controls can also be useful for 3D MRI view. * ''Transparency ''slider * ''Smooth ''slider: it changes the threshold applied to the MRI slices. If you set it zero, you will see the full slices, as extracted from the volume. * ''Resect ''panel: you can change the position of the slices with the three sliders. == Surfaces visualization == There is only one way to display the surfaces: in 3D figures. To display a surface you can either double-click on it or right-click > Display. * It is the same type of figure than previously (3D), thus all the mouse and keyboard operations are the same. * If you display two surfaces from the same anatomy directory, they will be displayed on the same figure. * Surfaces tab: more options are available<<BR>><<BR>> {{attachment:panelSurfaces.gif}} * Open the ''Cortex ''surface and try all the buttons and sliders. Then do the same with the ''Scalp ''surface. All the controls should have some effect on the display, except the sliders in the "''Data options''" panel. They are useful only when some additional data is mapped on the surfaces. * Multiple surfaces: If you have more than one surface in a figure, you need to select the surface you want to edit before changing its properties. The list of the available surfaces is displayed on top of the ''Surfaces ''tab. * You can also quickly add or remove surfaces in any 3D figure with the top-right buttons of the ''Surfaces ''tab. == Coordinates tab == * Close all the figures. Open the cortex surface again. * Right-click on the 3D figure, select "Get coordinates". A new window appears. * Click anywhere on the cortex surface: a big yellow cross appears, and the coordinates of the point are displayed in all the available coordinates systems (see page: CoordinateSystems) * MRI: MR volume, in milimeters (multiplied with the Voxsize field in the MRI file). * SCS: Subject Coordinates System, in milimeters * TAL: Talairach. * You can click on "View / MRI" to see where this point is located in the MRI, using the MRI Viewer. <<BR>><<BR>> {{attachment:panelCoord.gif}} {{attachment:panelCoordPt.gif}} == Next == Now you know how to create a protocol with a default anatomy, and visualize MR volumes and surfaces. Next step: how to [[Tutorials/TutImportAnatomy|import an individual anatomy]] for a subject. |
Tutorial 1: First steps
Objectives: Create a protocol with one subject, that uses the default anatomy Colin27.
Contents
Starting Brainstorm for the first time
- Start Matlab, go to brainstorm3 directory, and type "brainstorm" in Matlab command window.
- You may observe an error message in the command window about the compilation of the MEX files. You can ignore this problem for now, and maybe try to fix it later.
- Read and accept the licence file.
- Specify Brainstorm database directory. Read carefully what is written in previous section. Safe choices are for example:
Windows: My documents\brainstorm_db
Linux: /home/username/brainstorm_db
MacOS: Documents/brainstorm_db
Main interface window
Create first protocol
Click on the File menu, and select, and select New protocol.
Edit the protocol name and enter: "TutorialFirstSteps". It will automatically update the paths (Anatomy path and Datasets path).
Default properties for the subjects:
- These are the default settings that are usedwhen creating new subjects. It is then possible to override those settings for each subject individually.
Our objective is to create one subject that uses the default anatomy Colin27, so select the option "Yes, use protocol's default anatomy".
The option selected for Default channel file is not important because we are not going to import recordings (and channel files, ie. files that describe each sensor: position, orientation, name...). This point will be described in another tutorial.
Once you get something like the following figure, click on Create.
The MRI Viewer window opens automatically and displays the Colin27 brain, and a message box informs you that you should select some points on the MRI. Those fiducial points are used to register the MRI with the MEG or EEG sensors, when you import recordings. We don't need to define them now, because we are not going to import any recordings in this turorial, but let's play with the MRI Viewer
Fiducials selection (MRI Viewer)
MRI Viewer window:
- You can navigate through the volume by clicking anywhere in the slices, or by using the sliders below each image.
- Once you have clicked on any orientation, you can use the mouse wheel to move to the next/previous slice in the same orientation.
There are three small buttons above each image. They may be useful when you import your own MR volumes, if they are not oriented in the way Brainstorm wants them (e.g. you see the Sagittal title on top of the coronal view; or the small white "P", which is supposed to indicate the posterior part of the head, points the nose). Leave your mouse a few seconds over any button to read its description tooltip. Click on them and try to understand what they are doing.
Image contrast can be changed with the mouse: click and hold the right button on one image, and move your mouse up and down (this operation will be later referred as right-click+move).
- Right-clicking in any view shows a popup menu that will be described in the following tutorials.
- You can define six points on the MRI:
Three to define the Subject Coordinate System (SCS): Nasion (NAS), Left pre-auricular point (LPA), Right pre-auricular point (RPA),
Three to define the Talairach coordinate system (referred here as Normalized CS): Anterior commissure (AC), Posterior commissure (PC), and any Interhemispheric point (IH).
=> To know more about how to define the fiducial points.To define a point, position the three views at the point your want to define (pointed by the 3 crosses), and click on the Set button. Later you can click on View to move the views to this point again.
- You can see that all the points are already defined on this MRI, but you should always check their positions. For many reasons, each research group has a different way to define those points. So you may not position the ears or the nasion exactly the same way as we do. Do not hesitate to move the fiducials to better fit your needings; if not the results might be much less accurate.
The Display options panel allows to hide some of the components. If the MIP/Anatomy checkbox is selected, the Maximum Intensity Power is displayed instead of the regular slices: At each point, the value displayed is the maximum value across all the slices.
The Coordinates panel shows the (x,y,z) coordinates in all the coordinate systems managed by Brainstorm: MRI, SCS, and Talairach.
Once you're done, click on Cancel (unless you really want to save all your experimentations).
Protocol exploration
The protocol is created and you can now see it in the database explorer, in the Brainstorm window. It is represented by the top-most node in the tree.
You can switch between anatomy and functional data with the first three buttons in the toolbar. They are no subjects in the database yet, so the Functional data views are empty. However, in the Anatomy view, there is a (Default anatomy) node; it contains the MRI and the surfaces that can be used by default for the subjects without individual anatomy.
The default anatomy used in Brainstorm is based on the Colin27 MRI volume provided by the Montreal Neurological Institute (MNI): an average of 27 T1-weighted scans of Colin Holmes brain (more info). The surfaces here were extracted from this average MRI with respectively BrainVISA, BrainSuite and FreeSurfer.
Display the Anatomy view, and click on the small "+" to expand the contents of the (Default anatomy) node. There is one MRI and several surfaces, identified by different icons.
- Everything you can do with a node (anatomy files, subjects, protocol) is accessible by right-clicking on it. Take 15 minutes to explore all the popup menus by yourself. Don't be afraid of clicking anywhere, at this point you cannot damage anything.
If you explored well, you should have found the "New subject" menu in the protocol's popup menu. Click on it.
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- Usually, the only thing you need to do here is to edit the name of the subject.
But you can also override here the protocol's defaults regarding the sharing of anatomy and channel file between subjects and conditions. For the example, leave selected the "Yes, use default anatomy" option. Then click on Save.
You should see a the new subject in both Anatomy and Functional data views.
In the Anatomy view, the subject node only contains a link called (Default anatomy). It is here just to remind that the subject is using the default MNI Colin27 anatomy.
MRI visualization
There are three different ways to display the MR volumes. Right click on the T1-MRI in Default anatomy, menu Display.
Just click everywhere and try all the options by yourself, it is the best way to learn.
MRI Viewer
Already introduced in this tutorial.
Note: it is the default visualization mode; when you double-click on the T1-MRI file, it brings up the MRI Viewer.
Axial / coronal / sagittal slices
- Zoom: mouse wheel
- Move in zoomed image: click + move
- Adjust contrast: right click + move up/down
- Colormap selection in menu
- Save as image in menu
3D orthogonal slices
|
|
- Simple mouse operations
Rotate: click + move
Zoom: mouse wheel
Move object: left+right click + move
Move MRI slices: right click + move along direction of the slice (or Resect panel in Surfaces tab)
Colormap contrast/brightness: click on the colorbar, and move up/down (brightness) or left/right (contrast)
Reset view: double click
- Popup operations (right-click on the figure)
Colormap: Full Anatomy colormap edition (detailed in next tutorial)
MRI Display: For now, contains only the MIP option (Maximum Intensity Power). If checked, for each orientation: displays the maximum along all the slices instead of the proper slice.
Get coordinates: Pick a point in any 3D view and get its coordinates
Snapshots: save images or movies from this figure
Figure: change background color, display axes and menus for an advanced figure editing and management using Matlab tools.
Views: configure camera position with pre-defined settings.
- Keyboard shortcuts:
Notice the indications in the right part of the popup menu (CTRL+A in front of Figures>Axes, "1" in front of Views>Left), they represent the keyboard shortcut for each menu.
- Views shortcuts (0,1,2...9 and "="): Remember them, they will be very useful when exploring the cortical sources. It is much faster to press a key to switch from left to right hemisphere, than having to rotate the brain with the mouse.
- Surfaces tab (in the Brainstorm main window):
- This panel is dedicated to the surfaces display, but some controls can also be useful for 3D MRI view.
Transparency slider
Smooth slider: it changes the threshold applied to the MRI slices. If you set it zero, you will see the full slices, as extracted from the volume.
Resect panel: you can change the position of the slices with the three sliders.
Surfaces visualization
There is only one way to display the surfaces: in 3D figures. To display a surface you can either double-click on it or right-click > Display.
- It is the same type of figure than previously (3D), thus all the mouse and keyboard operations are the same.
- If you display two surfaces from the same anatomy directory, they will be displayed on the same figure.
Surfaces tab: more options are available
Open the Cortex surface and try all the buttons and sliders. Then do the same with the Scalp surface. All the controls should have some effect on the display, except the sliders in the "Data options" panel. They are useful only when some additional data is mapped on the surfaces.
Multiple surfaces: If you have more than one surface in a figure, you need to select the surface you want to edit before changing its properties. The list of the available surfaces is displayed on top of the Surfaces tab.
You can also quickly add or remove surfaces in any 3D figure with the top-right buttons of the Surfaces tab.
Coordinates tab
- Close all the figures. Open the cortex surface again.
- Right-click on the 3D figure, select "Get coordinates". A new window appears.
Click anywhere on the cortex surface: a big yellow cross appears, and the coordinates of the point are displayed in all the available coordinates systems (see page: CoordinateSystems)
- MRI: MR volume, in milimeters (multiplied with the Voxsize field in the MRI file).
- SCS: Subject Coordinates System, in milimeters
- TAL: Talairach.
You can click on "View / MRI" to see where this point is located in the MRI, using the MRI Viewer.
Next
Now you know how to create a protocol with a default anatomy, and visualize MR volumes and surfaces.
Next step: how to ?import an individual anatomy for a subject.