Difference between revisions of "DBP2:Queens"

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Back to [[DBP2:Main|NA-MIC DBP 2]]
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= Overview of Queens DBP 2 =
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== Image-Guided Percutaneous Surgery ==
  
* Title: Segmentation and Registration Tools for Robotic Prostate Interventions
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The Queen’s & Hopkins teams are developing novel systems and procedures for image-guided percutaneous needle-based surgical procedures. We develop a closely related family of systems guided by magnetic resonance imaging (MRI) for the diagnostics and treatment of prostate cancer and musculoskeletal conditions. The overall objective of this DBP is to create working clinical applications based on the NAMIC toolkit, namely Slicer and ITK/VTK tools. '''[[DBP2:Queens:Introduction|More...]]'''
  
==Team and Institute==
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Data is provided at the following link: '''[[Data:DBP2:Queens|Queens Data]]'''.
*PI: Gabor Fichtinger, PhD: gabor at cs.jhu.edu
 
*NA-MIC Engineering Contact: Katie Hayes, BWH
 
*NA-MIC Algorithms Contact: Allen Tannenbaum, GeorgiaTech
 
  
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= Queens Roadmap Project =
  
* Affiliation/Institution: Johns Hopkins University, Center for Computer Integrated Surgery
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{| cellpadding="10" border="1" style="background:lightblue;text-align:left;"
  
* We propose to supplant Dr. Fichtinger’s R01 grant from NAMIC DBP to transfer segmentation and deformation modeling technology from NAMIC/Brigham and adopt this technology particularly for MRI and prostate cancer biopsy and therapy. Using the NAMIC DBP funds, the Hopkins team will hire an IT-specialist who is trained in medical image processing, segmentation, and registration. This person will receive scientific advice and existing prototype code from the Brigham. At Johns Hopkins side, this person will be functioning in the software engineering core staff (director Dr Kazanzides) of the CISST ERC at the Johns Hopkins University. The person will produce professional-grade software, the functionality of which will be specified by Dr. Fichtinger. The robot system interface is now being recoded, based on VTK and ITK. The person to be hired on the NAMIC DPB funds will have to produce the desired prostate segmentation and deformation modeling technology on this platform. With the selection of VTK and ITK platform, we the door is kept open for Slicer to which renewed efforts are being directed at NAMIC and Brigham/IGT. The proposed prostate segmentation and registration tools, being based on VTK and ITK, shall be inherently compatible with Slicer Navigator, making any future conversion much easier.
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| style="width:15%" | [[Image:TRProstateBiopsyModule.png|200px]]
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* Manifold benefits exist for both NAMIC and the Brigham-Hopkins joint program in MRI-guided prostate interventions, owing to existing loops of collaborations, cross-compatibility of research (MR guided prostate interventions), and shared Slicer/VTK/ITK based software platforms. For Johns Hopkins, Dr. Fichtinger’s prostate robot R01 grant critically needs MR segmentation and deformable registration functions. The project's clinical partners are based in the intramural research program of the National Cancer Institute. Thus the proposed NAMIC DBP will tie a significant segment of extramural cancer research into a prominent intramural effort, thereby leading to a better understanding, coherency, and active collaboration between these otherwise disjoint efforts. For NAMIC the benefits are also tangible: the functions will be developed in a controlled and professional environment in the CISST ERC that has been in close collaboration with NAMIC/Brigham. The development environment used in both groups are similar, in that we both base our image processing tools on VTK, ITK and Slicer and uses many of the same development tools, including CVS, CMake, Doxygen and Dart. In short, the proposed work will be conducted on a shared platform (VTK, ITK, and Slicer) with a compatible development process, and thus the results will be directly absorbable by NAMIC.
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== [[DBP2:Queens:Roadmap|Prostate Biopsy Needle Positioning Robot Integration]] ==
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The Queen’s/Hopkins team is developing novel devices and procedures for cancer interventions, including biopsy and therapies.  Our roadmap project involves the development of an application for image-guided trans-rectal biopsy, utilizing a needle positioning robot with an integrated MRI RF coil.  [[DBP2:Queens:Roadmap|More...]]
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= PERK Station =
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== [[DBP2:Queens:PerkStation|Hardware/software overlay for percutaneous intervention (PERK Station)]] ==
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The Queen’s/Hopkins team is developing novel devices and procedures for cancer interventions, including biopsy and therapies. This particular project involves design and development of a hardware/software system that can be used in either clinical mode to perform an intervention or in training mode to objectively evaluate the performance of trainee doing a percutaneous needle intervention on a phantom. [[DBP2:Queens:PerkStation|More...]]
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Latest revision as of 18:09, 6 January 2010

Home < DBP2:Queens
Back to NA-MIC DBP 2

Overview of Queens DBP 2

Image-Guided Percutaneous Surgery

The Queen’s & Hopkins teams are developing novel systems and procedures for image-guided percutaneous needle-based surgical procedures. We develop a closely related family of systems guided by magnetic resonance imaging (MRI) for the diagnostics and treatment of prostate cancer and musculoskeletal conditions. The overall objective of this DBP is to create working clinical applications based on the NAMIC toolkit, namely Slicer and ITK/VTK tools. More...

Data is provided at the following link: Queens Data.

Queens Roadmap Project

TRProstateBiopsyModule.png

Prostate Biopsy Needle Positioning Robot Integration

The Queen’s/Hopkins team is developing novel devices and procedures for cancer interventions, including biopsy and therapies. Our roadmap project involves the development of an application for image-guided trans-rectal biopsy, utilizing a needle positioning robot with an integrated MRI RF coil. More...

PERK Station

PerkStationModule.JPG

Hardware/software overlay for percutaneous intervention (PERK Station)

The Queen’s/Hopkins team is developing novel devices and procedures for cancer interventions, including biopsy and therapies. This particular project involves design and development of a hardware/software system that can be used in either clinical mode to perform an intervention or in training mode to objectively evaluate the performance of trainee doing a percutaneous needle intervention on a phantom. More...