Version 59.1 by puchades on 2025/02/13 10:16
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puchades 6.1 1 == To set up your working environment: ==
puchades 1.1 2
3 1. [[Register>>url:https://ebrains.eu/register/]] for an EBRAINS account, login, and set up a [[private collab>>url:https://wiki.ebrains.eu/bin/view/Collabs/]].
4 1. Initialise the Bucket by clicking on Bucket in the navigation panel -> Create Bucket.
puchades 53.1 5 1. Remember to set your data proxy bucket to "public". Your collab can still be private.
puchades 1.1 6 1. Give users Admin, Editor or Viewer rights by clicking** Team** in the navigation panel.
puchades 55.1 7 1. Install DeepZoom, WebAlign, WebWarp, LocaliZoom, and Meshview from the EBRAINS Collaboratory App Store (see instructions below)[[image:public_data_proxy_bucket.png]]
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9 == How to install Collaboratory Apps ==
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11 1. To install Collaboratory Apps, click on the + Create button (top right corner).
12 1. Give the page a Title (for example, WebAlign), select the Community App option, and click Create.
puchades 58.1 13 1. Select the App to install (for example, DeepZoom), and click Save and View.
puchades 56.1 14 1. Repeat this for all the relevant Community Apps. You will need, "DeepZoom"; "WebAlign"; "WebWarp"; "LocaliZoom" and "MeshView".
puchades 1.1 15 1. Navigate between the Apps in the navigation panel. File transfer between the Apps is through the Bucket.
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puchades 59.1 17 [[image:1739438141762-762.png||data-xwiki-image-style-alignment="start" height="414" width="300"]]
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puchades 8.2 19 == How to prepare your images? ==
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21 **~1. Prepare your images before upload by naming them according this naming convention:**
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23 The ID should be unique to the particular brain section and in the format sXXX, with XXX representing the section number. The section number should reflect the serial order and spacing of the sections (e.g., s002, s006, s010 for every 4^^th^^ section starting with section 2).
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puchades 8.2 25 Example: tg2345_MMSH_s001.tif
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puchades 8.3 27 - Upload the images you want to work with into the bucket of your collab using the Data proxy (press on //"Bucket"//)
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puchades 8.2 29 **2. Image ingestion**
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puchades 54.1 31 Use the DeepZoom app
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puchades 19.1 33 Click on your images in order to select them and press the "create brain from selection" button. Choose a name for your serie.
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35 The App will automatically generate the files for you. Monitor the progress under the "processing" tab and on the two dashboards on the left.
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37 When the ingestion is finished, your serie will appear under the "Prepared Brains" tab.
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39 Click on the "View Brain" button in order to preview your images.
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puchades 24.1 41 Now go to the WebAlign app in order to start the registration to atlas.
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puchades 8.3 48
puchades 3.1 49 == **How to use WebAlign** ==
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puchades 5.1 51 WebAlign is an online tool for spatial registration of histological section images from rodent brains to reference 3D atlases.  Different experimental datasets registered to the same reference atlas allows you to spatially integrate, analyse and navigate these datasets within a standardised coordinate system. The output of WebAlign can be used for analysis in the online QUINT workflow.
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puchades 8.1 53 Online user manual: [[https:~~/~~/webalign.readthedocs.io/en/latest/>>https://webalign.readthedocs.io/en/latest/]]
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puchades 3.1 55 The view can be magnified using the 4-arrow "X" symbol in the top-right corner.
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57 === Opening a sample dataset ===
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puchades 25.1 59 Demo dataset is loaded using the file: **demo_mouse_data_start.waln**
puchades 3.1 60
puchades 25.1 61 You can see the result of a finished anchoring by choosing the file: **demo_mouse_data.waln**
puchades 3.1 62
63 === Opening a private dataset ===
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puchades 25.1 65 After you have uploaded your images to the bucket and ingested your images with the QUINT Image creator app, this has generated DZIP chunks. These DZIP files are used by WebAlign.
puchades 3.1 66
67 ~1. Start a new registration by pressing "create new series", the UI will ask you for the name of the collab where DZI chunks are stored. E.g. my-collab-name
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puchades 27.1 69 2. WebAlign will search for DZIP files and list those found.
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71 3. Enter a name for the descriptor json file which will be created and will contain your anchoring information.
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73 4. Choose the target 3D reference atlas (WHSv3 for Rat and CCFv3_2017 for Mouse).
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75 5. Press //"create"//. The main window will now display WebAlign. This step can take some time.
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puchades 27.1 77 [[image:create series webAlign.png]]
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puchades 33.1 79 === Opening an EBRAINS dataset ===
puchades 27.1 80
puchades 28.1 81 (% class="wikigeneratedid" %)
puchades 33.1 82 If you would like to work with an EBRAINS dataset, fetch the LocaliZoom link from the KG dataset card ( [[https:~~/~~/search.kg.ebrains.eu>>https://search.kg.ebrains.eu]] )and paste it in the "Import LocaliZoom link" tab.
puchades 28.1 83
84 (% class="wikigeneratedid" %)
85 These series already have been registered to a reference atlas, so this gives you a starting point. The linear registrations obtained with WebAlign can be refined using WebWarp.
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puchades 3.1 87 === Registration instructions ===
88
89 **Short keys**
90
91 |=To do this|=Press|=Description
92 |Place marker|Space bar|Markers are the anchor points of most transformations (stretch and rotate).
93 |Remove marker|Esc|Removes a previously placed marker.
94 |Horizontal stretch from marker |Left/Right arrow keys|Marker becomes a vertical line, and mouse drag horizontally resizes the cut.
95 |Vertical stretch from marker |Up/Down arrow keys|Marker becomes a horizontal line, and mouse drag vertically resizes the cut
96 |Rotate around marker|PgUp/PgDown|Marker becomes a cross with a surrounding arc, and mouse drag rotates the cut.
97 |In plane adjust |Click + drag|If there is no marker, or the marker is a cross, mouse drag slides the cut in its plane (translation).
98
99 **Start the registration**
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101 The main window shows the selected image with the atlas overlay.
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103 -If necessary, change the atlas from coronal view to sagittal or horizontal view (see Navigation panel below)
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105 ~1. Move the atlas to the approximate position of your section using the yellow dots in the three small windows from the navigation panel.
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107 2. Start anchoring by placing a marker with the //"Space bar//" , it is initially a cross, and it is the fix point of (most) transformations. The "//Escape key//" can be used to remove the marker.
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109 3. The main window supports mouse drag in multiple modes in order to stretch the atlas and find the correct position.
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111 -If there is no marker, or the marker is a cross, mouse drag slides the cut in its plane (translation).
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113 -Keyboard controls to modify mouse drag (they also place the marker if it's not placed already):
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115 -Left/Right arrow keys: marker becomes a vertical line, and mouse drag horizontally resizes the cut
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117 -Up/Down arrow keys: marker becomes a horizontal line, and mouse drag vertically resizes the cut
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119 -PgUp/PgDown keys: marker becomes a cross with a surrounding arc, and mouse drag rotates the cut. This may look weird because the cut remains being a rectangle, and when  the horizontal and vertical physical resolutions (like pixels/mm) of the image do not match, atlas cut will appear stretching/shrinking with the rotation.
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121 After each transformation step, marker resets to a cross (translation mode).
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123 //Note!// The panel can be resized towards the left (common border with Control Panel) and towards the bottom (common border with Filmstrip).
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125 4. Save the position by pressing //"Store". //The registration is copied to the remaining slides to help with scaling (visible also in the filmstrip)
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127 5. Go through all sections and refine position and cutting angles.
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129 //Note!// When jumping from one section to the other, wait a few seconds for the image to load
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131 //Note!// The "restore" button allows you to go back to the saved position if necessary
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133 6. Save your results in the descriptor file (json) by pressing "Save to bucket".
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135 7. When the registration is finished, you can export your descriptor files ( .flat files used for analysis in the QUINT workflow) by pressing //"export overlays".//
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137 **Control panel:**
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139 |=Button|=Function
140 |Store |Store the current alignment and propagate to unaligned sections (**Note** this does not save the series to your bucket)
141 |Restore |Reset the current alignment to the last stored position
142 |Clear |Reset the current alignment to the default position
143 |Overlay Slider |Opacity of the atlas overlay, when fully opaque, it becomes an outline
144 |Overlay color |The outline color
145 |Filmstrip slider and color|The above settings, applied to the filmstrip
146 |Save to bucket|Save the series to your bucket (and overwrite the existing file)
147 |Export overlays|Generates a series of .flat files (for Nutil or similar utility), and stores them into a .zip file in the bucket (re-using the name of the series descriptor, e.g. series13.json will export series13.zip)
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150 The right border of the control panel can be dragged horizontally, allowing to resize the panel and the main view
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152 **Filmstrip:**
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154 Drag horizontally to see series, click on a section in order to load it into the main view The top border of the filmstrip can be dragged vertically, allowing to resize the panel and the main view
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156 **Navigation panel:**
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158 Shows the three standard planes centered around the midpoint of the current alignment visible in the main view.
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160 The rectangle of the current cut is projected on each standard plane as a yellow line/rectangle/parallelogram. A small yellow circle represents the midpoint of the projection.
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162 Drag the midpoint around to move the cut.
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puchades 31.1 164 Drag anywhere else to rotate the cut (inside the given standard plane, around the midpoint).
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puchades 32.1 166 == **How to use WebWarp** ==
puchades 33.2 167
168 WebWarp is an online tool for nonlinear refinement of spatial registration of histological section images from rodent brains to reference 3D atlases. Webwarp is compatible with registration performed with the WebAlign tool. Different experimental datasets registered to the same reference atlas allows you to spatially integrate, analyse and navigate these datasets within a standardised coordinate system.
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170 Online user manual: [[https:~~/~~/webwarp.readthedocs.io/en/latest/>>https://webwarp.readthedocs.io/en/latest/]]
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172 The view can be magnified using the 4-arrow "X" symbol in the top-right corner.
173
174 === Opening a sample dataset ===
175
176 Demo dataset is loaded using the file: **demo_mouse_data.waln**
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178 You can see the result of a finished anchoring by choosing the file: **demo_mouse_data.wwrp**
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puchades 34.1 180 === Opening a private dataset ===
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puchades 39.2 182 (% class="wikigeneratedid" %)
183 All the .waln files located in the Bucket are displayed on the WebWarp main page. Your progress in WebWarp is saved as a .wwrp file.
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185 === Opening an EBRAINS dataset ===
186
187 If you would like to work with an EBRAINS dataset, open the LocaliZoom link from the KG dataset card ( [[https:~~/~~/search.kg.ebrains.eu>>url:https://search.kg.ebrains.eu]]) and paste it in the "Import LocaliZoom link" tab in WebAlign. Save this series as a .waln file you then can open in WebWarp.
188
189 === Non-linear registration ===
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puchades 34.1 191 1. Navigate to the WebWarp app in the left-hand panel: all the .waln files located in the Bucket are displayed on the WebWarp main page.
192 1. Select the waln file corresponding to your result from the WebAlign image registration.
193 1. Wait for the images to load: this may take some time.
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puchades 54.1 195 [[~[~[image:image1.png~|~|alt="_images/image1.png"~]~]>>url:https://webwarp.readthedocs.io/en/latest/_images/image1.png]]
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puchades 39.2 197 Your registered images are visible in the main window. The atlas regions with transparency sliders can be toggled using the “Atlas opacity” button. The color of the atlas outline can be modified by clicking on the colored rectangle.
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puchades 40.1 199 4. When going to “Settings”, the button for selecting the marker color will appear as well as “show triangles” which correspond to areas affected by the same    transformation.
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puchades 39.2 201 5. Place a marker on an area you want to stretch using the space bar. Nonlinear distortions are applied by dragging a marker using the mouse.
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203 6. Press Delete or Backspace to remove a marker under the mouse cursor.
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puchades 40.1 205 7. Save your results pression the “save” button. “Save as” will allow you to save the adjustments as a new file with a different name.
puchades 39.2 206
puchades 40.1 207 8. When the registration is finished, you can export your descriptor files ( .seg files used for analysis in the QUINT workflow) by pressing “export overlays”. All results are zipped and stored in the bucket. The result file name will be the same as the one chosen to create the registration, e.g. “my-registration.zip”.
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puchades 34.2 212 == **How to use LocaliZoom** ==
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puchades 36.1 214 LocaliZoom is a web application for viewing of series of high-resolution 2D images that have been anchored to reference atlases. LocaliZoom allows the viewing and exploring of high-resolution images with superimposed atlas overlays, and the extraction of coordinates of annotated points within those images for viewing in 3D brain atlas space.
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puchades 36.1 216 Online Manual: [[https:~~/~~/localizoom.readthedocs.io/en/latest/>>https://localizoom.readthedocs.io/en/latest/]]
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218 The view can be magnified using the 4-arrow "X" symbol in the top-right corner.
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220 === Opening a sample dataset ===
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222 A demo dataset is loaded using the file: demo_mouse_data_lz
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puchades 41.2 224 === Opening a private or EBRAINS dataset ===
puchades 36.1 225
puchades 41.2 226 LocaliZoom will open all WebAlign (.waln) or WebWarp (.wwrp) files.
puchades 36.1 227
puchades 41.2 228 === Create annotation points ===
puchades 35.1 229
puchades 42.1 230 To extract a coordinate, the mouse marker must be positioned at the desired location, and press the space bar. A cross will appear in the selected colour (under Settings), representing the location of the extracted coordinate. After all desired points have been marked, the coordinates can be exported either to Excel.
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puchades 42.1 232 Press "delete" in order to remove an annotation.
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puchades 42.1 234 Save your annotations with the "save" or "save as" buttons. The file format is .lz
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puchades 41.2 236 === Export of coordinate points ===
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puchades 42.1 238 The created points can be exported to an Excel book by pressing "XLSX export".
puchades 41.2 239
puchades 42.2 240 The saved .lz file can also be visualised in the 3D viewer, MeshView.
puchades 42.1 241
puchades 37.1 242 == **How to use MeshView** ==
puchades 35.1 243
puchades 44.1 244 MeshView is a web application for real-time 3D display of surface mesh data representing structural parcellations from volumetric atlases, and point clouds extracted from datasets.
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puchades 44.1 246 Online manual: [[https:~~/~~/meshview-for-brain-atlases.readthedocs.io/en/latest>>https://meshview-for-brain-atlases.readthedocs.io/en/latest]]
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248 The view can be magnified using the 4-arrow "X" symbol in the top-right corner.
249
250 === Open point cloud files ===
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puchades 49.1 252 MeshView can open annotations from LocaliZoom (.lz files). Possibility of a global control of all structures, using the slider will render the meshes transparent or disappear.
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puchades 50.1 254 The individual control allow each structure to be made transparent or disappear. The color for each structure can be changed when clicking on the colored square.
puchades 49.1 255
256 Navigation in the hierarchy is possible by clicking on the region names (grey boxes), this will collapse parts of the region tree.
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puchades 48.1 258 === Export images ===
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puchades 47.1 260 The "screenshot" button allows to capture the main window view as a png file.
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puchades 46.1 262 [[image:image19.png]]
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