Difference between revisions of "Slicer3:VisualBlog"

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<gallery caption="2010" widths="200px" perrow="4">
 
<gallery caption="2010" widths="200px" perrow="4">
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Image:Gimias-running-slicer-module-2010-10-20.png | A set of slicer command line modules are now shipped as part of the [http://www.gimias.org Gimias] tool from UPF in Barcelona!
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Image:800px-NDI booth Slicer MICCAI2010.jpg | Northern Digital, makers of tracking systems widely used in image guided therapy, used Slicer and OpenIGTLink in their booth installation at [http://www.miccai2010.org/ MICCAI2010 in Beijing].
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Image:prostate_multiparametric_visualization.png | In this screenshot [[Modules:MainApplicationGUI-Documentation-3.6#Selecting_Among_Standard_Layouts|CompareView layout of 3D Slicer]] is used to facilitate visualization of multiparametric MRI of the prostate
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Image:vervet_atlas_template.png| [http://www.nitrc.org/projects/vervet_atlas Vervet Probabilistic Atlas] constructed using 3D Slicer tools is available for download from NITRC.
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Image:Avf 3d voronoi big.png| A Voronoi diagram used for [[Modules:VMTKCenterlines|centerline computation]] of a vascular tree.
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Image:Vmtkaftercenterline.png| [[Modules:VMTKEasyLevelSetSegmentation|Level-set segmentation]] was used to segment this right coronary artery.
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Image:Slicer3.6MeasurementsRulersModel.jpg| [[Modules:Measurements-Documentation-3.6|Rulers and angle widgets]] are available for measuring distances and angles in the 3D scene
 
Image:deformable_registration_Screenshot1.png| Non-rigid registration module in 3D Slicer can be used to fuse pre-procedural MR images and intra-procedural CT images during cryoablation of renal tumors. The non-rigid registrations are more accurate than rigid registrations.
 
Image:deformable_registration_Screenshot1.png| Non-rigid registration module in 3D Slicer can be used to fuse pre-procedural MR images and intra-procedural CT images during cryoablation of renal tumors. The non-rigid registrations are more accurate than rigid registrations.
 
Image:FourDImage_Screenshot1.png|[[Modules:FourDImage-Documentation-3.6|The 4D Image module]] allows handling a time-series of 3D volume images (4D image), e.g. fMRI, cardiac images, dynamic contrast-enhanced (DCE) images in 3D Slicer.  
 
Image:FourDImage_Screenshot1.png|[[Modules:FourDImage-Documentation-3.6|The 4D Image module]] allows handling a time-series of 3D volume images (4D image), e.g. fMRI, cardiac images, dynamic contrast-enhanced (DCE) images in 3D Slicer.  
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Image:RegistrationResults2.jpg| [[Modules:DeformableB-SplineRegistration-Documentation-3.6|B-Spline Registration]] in Slicer 3.6 allows for non-rigid registration between pre-procedure MRI and intra-procedure CT images during CT guided tumor ablation in the liver. It provides increased tumor visualization during the planning, targeting and monitoring phases of the ablation procedure.
 
Image:RegistrationResults2.jpg| [[Modules:DeformableB-SplineRegistration-Documentation-3.6|B-Spline Registration]] in Slicer 3.6 allows for non-rigid registration between pre-procedure MRI and intra-procedure CT images during CT guided tumor ablation in the liver. It provides increased tumor visualization during the planning, targeting and monitoring phases of the ablation procedure.
 
Image:IntraOpDTI.jpg| Intra-operative querying of white matter tracts is now possible by interfacing Slicer 3.6 to the commercial [http://www.brainlab.com/scripts/website_english.asp BrainLab] system and Yale's [http://bioimagesuite.org/ BioImageSuite] software.
 
Image:IntraOpDTI.jpg| Intra-operative querying of white matter tracts is now possible by interfacing Slicer 3.6 to the commercial [http://www.brainlab.com/scripts/website_english.asp BrainLab] system and Yale's [http://bioimagesuite.org/ BioImageSuite] software.
Image:BetaProbe.jpg| Intra-operative navigation of a positron probe can help detect regions of high [18F]-FDG uptake as shown in this phantom, potentially improving tumor removal at resection borders. The first two image shows a PET/CT scan of the phantom showing where radiation is located, and the third image shows results as indicated by the positron probe.
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Image:BetaProbe.jpg| Intra-operative navigation of a positron probe can help detect regions of high [18F]-FDG uptake, potentially improving tumor removal at resection borders. The first two image shows a PET/CT scan of the phantom showing where radiation is located, and the third image shows results as indicated by the positron probe.
 
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<gallery caption="2009" widths="200px" perrow="4">
 
<gallery caption="2009" widths="200px" perrow="4">

Latest revision as of 23:18, 2 July 2011

Home < Slicer3:VisualBlog



About the VisualBlog

The VisualBlog is meant to be an easy place to upload screenshot so that both developers and outside observes can track the progress of the project.

Many thanks to developers and users for contributing their images here.