Difference between revisions of "Modules:ProstateNav-Documentation-3.6"
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Revision as of 20:34, 27 April 2010
Home < Modules:ProstateNav-Documentation-3.6Return to Slicer 3.6 Documentation
Module Name
ProstateNav
General Information
Module Type & Category
Type: Interactive
Category: IGT
Authors, Collaborators & Contact
- Junichi Tokuda, BWH
- Andras Lasso, Queen's University (New GUI interface)
- Simon DiMaio, Intuitive Surgical Inc. (System design, Z-frame registration)
- Gregory Fischer, WPI (System design, Robot Software)
- David Gobbi (Wizard Interface)
- Csaba Csoma, JHU (System design, Robot Software)
- Haiying Liu, BWH (Software packaging)
- Philip Mewes (Initial version)
- Gabor Fitchinger, Queen's University
- Nobuhiko Hata, BWH
- Clare Tempany, BWH
Module Description
The ProstateNav module is designed to add an integrated user interface (UI) for MRI-guided prostate intervention (e.g. needle biopsy and brachytherapy) to 3D Slicer. In version 3.6, the module provides user interfaces for the following devices:
- MRI-compatible pneumatic needle placement robot for transperineal prostate biopsy and brachytherapy (Johns Hopkins University + Brigham and Women's Hospital + Queen's Univeristy)
- MRI-compatible transrectal needle biopsy device (Queen's University + Johns Hopkins University)
- Template-based needle guiding system for MRI-guided prostate biopsy and brachy therapy (Queen's University + Brigham and Women's Hospital)
The module has wizard-style interface, which helps an operator follow the clinical procedure step by step. It supports target planning and management, patient-device registration, and verification. The module can also communicate with some of the devices listed above using OpenIGTLink protocol.
Usage
Tutorials
The ProstateNav switches its user interface based on the device type selected by the user. This section describes step-by-step instruction for each device.
MRI-compatible pneumatic needle placement robot for transperineal prostate biopsy and brachytherapy
Step 1: Create a manager node and select a device type
Step 2: Configure network connections
Step 3: Fiducial-based calibration
Template-based needle guiding system for MRI-guided prostate biopsy and brachy therapy
Step 1: Create a manager node and select a device type
First, create a manager node by choosing Create New ProstateNavManager from a node selector menu in Active configuration. Then click Create New TransperinealProstateTemplate from Robot node selector.
Step 2: Calibration
Press Cliabration button in the workphase tab to open 2/4 Calibration page.
First, we load a multi-slice Z-frame image to register the device coordinate system to the image coordinate system. Choose "File->Add Volume..." menu to open the file selection dialog box.
Step 3: Fiducial-based calibration
Development
Dependencies
Known bugs
Follow this link to the Slicer3 bug tracker.
Usability issues
Follow this link to the Slicer3 bug tracker. Please select the usability issue category when browsing or contributing.
Source code & documentation
See ViweCV page for the source code.
Links to documentation generated by doxygen.
More Information
Acknowledgment
This work is supported by 1R01CA111288, 5U41RR019703, 5P01CA067165, 1R01CA124377, 5P41RR013218, 5U54EB005149, 5R01CA109246 from NIH. This study was also in part supported by NSF 9731748, CIMIT, Intelligent Surgical Instruments Project of METI (Japan).
References
- Fischer GS, Iordachita I, Csoma C, Tokuda J, DiMaio SP, Tempany CM, Hata N and Fichtinger G. MRI-Compatible Pneumatic Robot for Transperineal Prostate Needle Placement. IEEE/ASME Trans Mechatronics 2008; 13(3):295-305 [1]
- Tokuda J, Fischer GS, Csoma C, DiMaio SP, Gobbi DG, Fichtinger G, Tempany CM, Hata N. Software Strategy for Robotic Transperineal Prostate Therapy in Closed-Bore MRI. In: Proc. 11th International Conference on Medical Image Computing and Computer-Assisted Intervention - MICCAI 2008; 9/6/2008-9/10/2008; New York, NY ;2008. p. 701-709. [2]
- DiMaio S, Samset E, Fischer G, Iordachita I, Fichtinger G, Jolesz F, Tempany C. Dynamic MRI Scan Plane Control for Passive Tracking of Instruments and Devices. Int Conf Med Image Comput Comput Assist Interv. 2007;10(Pt 2):50-58. [3]