Difference between revisions of "IGT:ToolKit"
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− | + | __NOTOC__ | |
+ | The '''Image Guided Therapy Toolkit''' is a toolkit being developed at the Brigham and Women's Hospital. The IGT toolkit is a set of open source software tools integrated with supported hardware devices: [http://www.slicer.org www.slicer.org 3D Slicer] is our main platform for software development and dissemination, and | ||
+ | [http://www.na-mic.org/Wiki/index.php/OpenIGTLink OpenIGTLink] is a communication protocol that allows Slicer3 to communicate with imaging devices, trackers and medical robots. We encourage you to download and use the free tools and welcome any comments or feedback. | ||
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='''Tutorials'''= | ='''Tutorials'''= | ||
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|- style="background:#BBE9E2; color:black" align="left" | |- style="background:#BBE9E2; color:black" align="left" | ||
| style="width:5%" | '''Level''' | | style="width:5%" | '''Level''' | ||
− | | style="width: | + | | style="width:45%" | '''Tutorial''' |
− | | style="width: | + | | style="width:20%" | '''Hardware Requirements''' |
− | | style="width:10%" | ''' | + | | style="width:10%" | '''Tutorial''' |
+ | |- | ||
+ | | style="background:#9BF2C5; color:black" align="Center"| '''1''' | ||
+ | | style="background:#D1FFF9; color:black"| [http://wiki.na-mic.org/Wiki/index.php/IGT:ToolKit/Navigation-tutorial Basic Navigation Tutorial] | ||
+ | Illustrates Slicer3's tracking capabilities using a tracking simulator in place of an actual tracking device | ||
+ | | style="background:#D1FFF9; color:black"| None | ||
+ | | style="background:#C3D1C3; color:black" align="Center"| | ||
+ | [[Image:IGTBasicNavigationSummary.png|200px|Basic Navigation]] | ||
|- | |- | ||
| style="background:#9BF2C5; color:black" align="Center"| '''1''' | | style="background:#9BF2C5; color:black" align="Center"| '''1''' | ||
− | | style="background:#D1FFF9; color:black"| [ | + | | style="background:#D1FFF9; color:black"| [http://wiki.na-mic.org/Wiki/index.php/IGT:ToolKit/Neurosurgical-Planning Neurosurgical Planning in Slicer3] |
− | | style="background:#D1FFF9; color:black"| | + | Demonstrate's Slicer3's IGT capabilities by using image registration, model making and DTI to create a preoperative plan for neurosurgery |
− | | style="background:#C3D1C3; color:black" align="Center"| [[Image: | + | | style="background:#D1FFF9; color:black"| None |
+ | | style="background:#C3D1C3; color:black" align="Center"| [[Image:NeurosurgicalPlanningOverview.png|200px|Neurosurgical Planning Overview]] | ||
|- | |- | ||
| style="background:#9BF2C5; color:black" align="Center"| '''1''' | | style="background:#9BF2C5; color:black" align="Center"| '''1''' | ||
− | | style="background:#D1FFF9; color:black"| [ | + | | style="background:#D1FFF9; color:black"| [http://wiki.na-mic.org/Wiki/index.php/IGT:ToolKit/Prostate-Planning Prostate Therapy Planning in Slicer3] |
− | | style="background:#D1FFF9; color:black"| | + | Demonstrates Slicer3's IGT capabilities by using deformable registration and model making to create a preoperative plan for prostate therapy |
− | | style="background:#C3D1C3; color:black" align="Center"| [[Image: | + | | style="background:#D1FFF9; color:black"| None |
+ | | style="background:#C3D1C3; color:black" align="Center"| | ||
+ | [[Image:ProstatePlanningOverview.jpg|200px|Prostate Planning Overview]] | ||
|- | |- | ||
− | | style="background:# | + | | style="background:#9BF2C5; color:black" align="Center"| '''1''' |
− | | style="background:#D1FFF9; color:black"| [ | + | | style="background:#D1FFF9; color:black"| [http://wiki.na-mic.org/Wiki/index.php/LEGO_IGT_and_Medical_Robotics_Tutorial Lego IGT and Medical Robotics Tutorial] |
− | + | Provides an overview of all of the main components of IGT and medical robotics, including imaging, pre-operative planning, targetting by tracking, navigation and registration | |
− | | style="background:#D1FFF9; color:black"| | + | | style="background:#D1FFF9; color:black"| Lego Mindstorms NXT robot |
− | | style="background:#C3D1C3; color:black" align="Center"| [[Image: | + | Lego Deluxe Brick Box |
+ | | style="background:#C3D1C3; color:black" align="Center"| [[Image:Slicer3-IGT-LEGOTutorial-biopsy.jpg|200px|Lego Tutorial]] | ||
|- | |- | ||
| style="background:#8EDEB5; color:black" align="Center"| '''2''' | | style="background:#8EDEB5; color:black" align="Center"| '''2''' | ||
− | | style="background:#D1FFF9; color:black"| [ | + | | style="background:#D1FFF9; color:black"| [http://wiki.na-mic.org/Wiki/index.php/IGT:ToolKit/Navigation-with-Aurora Advanced Navigation Tutorial with a tracking device] |
− | + | Illustrates Slicer3's tracking capabilities using a tracking device, and provides a more advanced overview of the OpenIGTLink protocol | |
− | | style="background:#D1FFF9; color:black"| | + | | style="background:#D1FFF9; color:black"| Tracking device e.g. NDI Aurora |
− | | style="background:#C3D1C3; color:black" align="Center"| [[Image: | + | | style="background:#C3D1C3; color:black" align="Center"| [[Image:AdvancedNavigationTutorialSummary.png|200px|Advanced Navigation Tutorial]] |
|} | |} | ||
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− | + | ='''Contact Information'''= | |
− | + | If you have any comments or requests, please contact Dr. Nobuhiko Hata (''hata at bwh.harvard.edu''). | |
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− | =''' | ||
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+ | Dr. Hata leads the development of '''Slicer IGT''' at the [http://www.ncigt.org/ National Center for Image Guided Therapy]. See the website of his [http://snr.spl.harvard.edu/ Surgical Navigation and Robotics Laboratory]. | ||
− | = | + | =Sponsors= |
− | + | <gallery perrow="4" widths="150px"> | |
+ | Image:NCIGTlogo.gif|[http://www.ncigt.org National Center for Image Guided therapy] | ||
+ | Image:Logo_CIMIT.png|[http://www.cimit.org CIMIT] | ||
+ | Image:NAMIC 380x463.jpg|[http://www.na-mic.org National Alliance for Medical Image Computing] | ||
+ | Image:Isip.jpg|[http://www.intelli-si.org/index_e.html Intelligent Surgical Instrument Project, Japan] | ||
+ | </gallery> |
Latest revision as of 17:02, 11 April 2023
Home < IGT:ToolKit
The Image Guided Therapy Toolkit is a toolkit being developed at the Brigham and Women's Hospital. The IGT toolkit is a set of open source software tools integrated with supported hardware devices: www.slicer.org 3D Slicer is our main platform for software development and dissemination, and
OpenIGTLink is a communication protocol that allows Slicer3 to communicate with imaging devices, trackers and medical robots. We encourage you to download and use the free tools and welcome any comments or feedback.
Tutorials
See the Slicer3 Training page for additional tutorials on Slicer3 capabilities.
Level | Tutorial | Hardware Requirements | Tutorial |
1 | Basic Navigation Tutorial
Illustrates Slicer3's tracking capabilities using a tracking simulator in place of an actual tracking device |
None | |
1 | Neurosurgical Planning in Slicer3
Demonstrate's Slicer3's IGT capabilities by using image registration, model making and DTI to create a preoperative plan for neurosurgery |
None | |
1 | Prostate Therapy Planning in Slicer3
Demonstrates Slicer3's IGT capabilities by using deformable registration and model making to create a preoperative plan for prostate therapy |
None | |
1 | Lego IGT and Medical Robotics Tutorial
Provides an overview of all of the main components of IGT and medical robotics, including imaging, pre-operative planning, targetting by tracking, navigation and registration |
Lego Mindstorms NXT robot
Lego Deluxe Brick Box |
|
2 | Advanced Navigation Tutorial with a tracking device
Illustrates Slicer3's tracking capabilities using a tracking device, and provides a more advanced overview of the OpenIGTLink protocol |
Tracking device e.g. NDI Aurora |
Contact Information
If you have any comments or requests, please contact Dr. Nobuhiko Hata (hata at bwh.harvard.edu).
Dr. Hata leads the development of Slicer IGT at the National Center for Image Guided Therapy. See the website of his Surgical Navigation and Robotics Laboratory.