Difference between revisions of "2011 Summer Project Week 4DUltrasound HybridProbe OsteoPlan"

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<h3>Progress</h3>
 
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#4D Ultrasound: Receiving data through OpenIGTLink and using Volume Rendering is working. Need to make mitrale valve detection, and develop module to store 3D volumes on Slicer.
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#HybridProbe: Pivot calibration worked (NDI Toolkit), Registration worked. Need to implement BrainLab system.
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#OsteoPlan:Basics are done. Need to be improve (clipping, moving parts, reduce number of clicks).
  
  

Revision as of 23:42, 16 June 2011

Home < 2011 Summer Project Week 4DUltrasound HybridProbe OsteoPlan

4D Ultrasound / Hybrid Probe / OsteoPlan

Key Investigators

  • Brigham and Women's Hospital: Laurent Chauvin, Noby Hata
  • PSI: John McGill, Bryan Murphy


Objective

  1. 4D Ultrasound: Develop a 4D Ultrasound on Slicer (Laurent Chauvin) with mitral valve (shape, position) tracking (Atsushi Yamada)
  2. Hybrid Probe: Develop a Slicer module to register EM Probe (NDI Aurora System) and Optical Probe (BrainLab System), to create one hybrid probe (Laurent Chauvin)
  3. OsteoPlan: Develop a Slicer module (wizard) for osteotomy, for facial reconstruction (Laurent Chauvin, PSI)

Approach, Plan

  1. 4D Ultrasound: Use OpenIGTLink to receive 3D data from scanner (for now, simulating scanner), and using Volume Rendering module (GPU Ray casting) to render the volume. A Slicer module will be develop to navigate through the different volume received.
  2. Hybrid Probe: Use a pivot calibration to find the tip of the probe, with both systems, and use a pair point registration, to find transformation from Aurora coordinate system to Polaris (and then BrainLab) coordinate system.
  3. OsteoPlan: Create a wizard with 5 different steps (cut the model, select different parts of the model, move parts, place fiducials, back to original position)

Progress

  1. 4D Ultrasound: Receiving data through OpenIGTLink and using Volume Rendering is working. Need to make mitrale valve detection, and develop module to store 3D volumes on Slicer.
  2. HybridProbe: Pivot calibration worked (NDI Toolkit), Registration worked. Need to implement BrainLab system.
  3. OsteoPlan:Basics are done. Need to be improve (clipping, moving parts, reduce number of clicks).


References

D’Avila A, Scanavacca M, Sosa E, Riskin JN, Reddy VY. Pericardial anatomy for the Interventional Electrophysiologist. J Cardiovasc Electrophysiol 2003;14:422-430

Delivery Mechanism

This work will be delivered to the NAMIC Kit as a

  1. NITRIC distribution
  2. Slicer Module
    1. Built-in:
    2. Extension -- commandline:
    3. Extension -- loadable: