Difference between revisions of "2014 Project Week:Ultrasound Visualization and Navigation in Neurosurgery"

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Image:PW-SLC2014.png|[[2014_Winter_Project_Week#Projects|Projects List]]
 
Image:PW-SLC2014.png|[[2014_Winter_Project_Week#Projects|Projects List]]
 
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[[Image:NAMIC-US-screenshot.png|300px|thumb|left|Visualizing MRI and 3D Ultrasound]]
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[[Image:LeapUSNavigation.gif|300px|thumb|left|Navigating MRI and Ultrasound via gestures using Slicer and a Leap Motion system]]
  
 
==Key Investigators==
 
==Key Investigators==
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<h3>Progress</h3>
 
<h3>Progress</h3>
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* We developed a python module that can be used to reconstruct ultrasound volumes online from Slicer, via an active PLUS Server connection.
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* The ultrasound volume can be generated rapidly, visualized and navigated via Slicer, e.g. using a stylus and the VolumeResliceDriver module.
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* We tested the module on data an existing AMIGO neurosurgery case, and investigated navigation via a Leap Motion gesture controller.
 
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==Links==
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* [[Media:PlusRemote.zip|Slicer Python Module]]
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PLUS Server Reconstruction Information:
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* https://www.assembla.com/spaces/plus/wiki/PlusServer_commands
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* https://www.assembla.com/spaces/plus/messages/2655013

Latest revision as of 19:23, 9 January 2014

Home < 2014 Project Week:Ultrasound Visualization and Navigation in Neurosurgery
Visualizing MRI and 3D Ultrasound
Navigating MRI and Ultrasound via gestures using Slicer and a Leap Motion system

Key Investigators

BWH: Matthew Toews, Alireza Mehrtash, Steve Pieper, William M. Wells III

Queen's: Csaba Pinter, Andras Lasso

Project Description

Objective

This project will investigate approaches to ultrasound-based visualization and navigation in the context of neurosurgery. The goal will be to develop a persistent representation of intra-operatively acquired 2D US data that can be visualized in conjunction with pre-operative MR data.

Approach, Plan

  • We will brainstorm approaches based on current Slicer and PLUS software capabilities. Possible approaches include
    • real-time 3D ultrasound reconstruction
    • painting US data onto predefined visualization planes.

Progress

  • We developed a python module that can be used to reconstruct ultrasound volumes online from Slicer, via an active PLUS Server connection.
  • The ultrasound volume can be generated rapidly, visualized and navigated via Slicer, e.g. using a stylus and the VolumeResliceDriver module.
  • We tested the module on data an existing AMIGO neurosurgery case, and investigated navigation via a Leap Motion gesture controller.

Links

PLUS Server Reconstruction Information: