Difference between revisions of "2011 Summer Project Week"

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• Dates: June 20-24, 2011
• Location: MIT

Preliminary Agenda

Agenda

Projects

• Please make a link for your project to a new page based on the 2011 Summer Project Page Template

1. Visualization of DICOM RT Planning Contours and Dose Distributions for Prostate and Gynecologic Brachytherapy in Slicer(Tina Kapur, Greg Sharp, Jan Egger, Firdaus Janoos)
2. Visualization of b-spline and vector fields (Steve, Danielle, Dominik)
3. Annotation Module in Slicer4 (Nicole Aucoin, Daniel Haehn)
4. RECIST Slicer4 module (Nicole Aucoin)
5. DicomToNrrdConverter refactoring ( Xiaodong Tao, Mark Scully)
6. Normal consistency in particle correspondence computation using great circles in principal spheres - Huntington's Disease, (Beatriz Paniagua, Martin Styner, Sungkyu Jung, Mark Scully)
7. SPHARM & particles shape analysis - Huntington's Disease - Lucile Bompard, Clement Vachet, Beatriz Paniagua, Martin Styner
8. Non-rigid, inter-patient registration of bone masks derived from CT for Head and Neck Cancer Radiation Therapy (Ivan Kolesov, Yi Gao, Gregory Sharp, and Allen Tannenbaum)
9. Robust Statistical Segmentation (RSS) for the Atrial Fibrillation Ablation Therapy (Yi Gao, Kedar Patwardhan, Wassim Haddad, and Allen Tannenbaum, Rob MacLeod, Josh Blauer, and Josh Cates)
10. Multimodality Image Registration for TBI (Yifei Lou, Danielle Pace, Jack Van Horn?, Marcel Prastawa?)
11. Segmentation of Longitudinal TBI data (Bo Wang, Jack Van Horn, Andrei Irimia, Marcel Prastawa, Guido Gerig)
12. Longitudinal Shape Regression - Huntington's Disease (James Fishbaugh, Guido Gerig)
13. Dose volume histograms in Slicer (Greg Sharp, Nadya Shusharina, Steve Pieper, Csaba Pinter, Tina Kapur)
14. Synthetic images, vector fields, RT structures and RT doses in Slicer and ITK. (Nadya Shusharina, Greg Sharp, Luis Ibanez, Steve Pieper)
15. Interactive Watersheds Segmentation Module for Slicer for Atrial Fibrillation and HN Cancer (Josh Cates, Ross Whitaker, Steve Pieper, Jim Miller, Nadya)
16. Segmentation of Nerve and Nerve Ganglia in the Spine (Adrian Dalca, Giovanna Danagoulian, Ron Kikinis, Ehud Schmidt, Polina Golland)
17. Image Manifold Learning with Spectral Embedding and Laplacian Eigenmaps (Ramesh Sridharan, Polina Golland)
18. Shapeworks Shape Analysis for Atrial Fibrilliation and HD (Manasi Datar, Beatriz UNC, Mark Scully)
19. Explore the applicability of RSS and Shapeworks for Ventricular Segmentation(Chiara Carminati, ?, ?)
20. 2011_Summer_Project_Week_Integrate_BRAINSCut_into_Slicer3(Regina Kim, ... )
21. The Vascular Modeling Toolkit in 3D Slicer 4 (Daniel Haehn, Luca Antiga, Steve Pieper)
22. Integration of LANDWARP into interactive registration module (Andrey Fedorov, Greg Sharp, Nadya Shusharina)
23. Registration of mouse brains (Francois Budin)
24. ShapeWorks Applications (Manasi Datar, Beatriz Paniagua, Martin Styner, Ross Whitaker, ?)
25. Wireless joystick controlling medical devices and software (e.g. Slicer4) in the operating room (Szymon Kostrzewski)
26. Live Tracked Ultrasound with Slicer4 (Tamas Heffter)
27. Surveying research teams interested in Open IGT Link support of Stealth Station (Nobuhiko Hata, Ron Kikinis)
28. DTIPrep - "Study-specific Protocol" based automatic DWI/DTI quality control and preparation - Huntington's Disease (Mashid Farzinfar, Clement Vachet, Joy Matsui, Martin Styner)
29. DTI pair-wise registration module - Huntington's Disease (Clement Vachet, Joy Matsui, Mark Scully, Martin Styner)
30. Volumetric DTI into Slicer for HD for Tract based roi segmentation (Steve Callahan, Mark Scully, Jim Miller)
31. Nifti Support for Diffusion Tensor Images (Demian)
32. Finishing details on the workflows: DICOM->Full brain tractography / peritumoral (Demian)
33. Tractography Bundle/Cluster Interaction and Display in Slicer4 (Lauren, Isaiah, Demian)
34. White Matter Laterality in Python/Slicer4 (Lauren)
35. Adding streamlined tractography to the Finsler front propagation tractography toolkit (Antonio Tristán-Vega)
36. Workflows and Service Oriented Architecture Modules for Slicer4 as Extensions (Alexander Zaitsev, Wendy Plesniak, Ron Kikinis)
37. DICOM Networking interface for Slicer4 (Steve Pieper, Nicole Aucoin, Noby Hata)
38. Stenosis Detector in 3D Slicer 4 (Suares Tamekue, Daniel Haehn, Luca Antiga)
39. Spine Segmentation & Osteoporosis Screening In CT Imaging Studies (Anthony Blumfield)
40. Slicer module for building an average population HARDI Atlas (Ryan Eckbo)
41. 4D Ultrasound / Hybrid Probe / OsteoPlan (Laurent Chauvin, Noby Hata)
42. EM Segmentation in 3D Slicer 4 (Daniel Haehn, Dominique Belhachemi, Kilian Pohl)
43. Demons Based Non-Rigid Registration that Accommodates Resection in 3D Slicer (Petter Risholm, Sandy Wells)
44. Re-parameterize fiber tracts for fiber statistics analysis
45. Automated GUI Testing (Sonia Pujol, Steve Pieper, Dave Partyka, Jean-Christophe Fillion-Robin, Xiaodong Tao)
46. Integrating Plastimatch into the EMSegmenter (Dominique Belhachemi, Kilian Pohl, Greg Sharp)
47. Customizing EMSegmenter pipelines for brain lesions (Dominique Belhachemi, Alexander Zaitsev, Kilian Pohl)
48. Slicer extension for GLiome Image SegmenTation and Registration (GLISTR) (Andreas Schuh, Daniel Haehn, Kilian Pohl)
49. White matter geometry measures in Slicer 4 (Peter Savadjiev)
50. Internationalization of Slicer (Luping Fang, Steve Pieper, Daniel Haehn, Suares Tamekue, Jean-Christophe Fillion-Robin, Julien Finet, Yiming Ge, Ping Cao)
51. Integrate new features into BRAINSFit (Andrey Fedorov, Hans Johnson, Mark Scully)
52. FetchMI: Slicer integration with XNAT 1.5 (Misha Milchenko, Wendy Plesniak)
53. ODF computation through fiber counting (Yinpeng Li, Ipek Oguz, Martin Styner)
54. Intraoperative Brain Shift Monitor (Jason White, Alex Golby, Steve Pieper)
55. DTI Volumetric Segmentation for Group studies (Gopal Veni, Ross Whitaker)
56. 2011_Summer_Project_Week_Segementation_Reconstruction_Pericardial_Sac (Mohasen)

Background

We are pleased to announce the 13th PROJECT WEEK of hands-on research and development activity for applications in Image-Guided Therapy, Neuroscience, and several additional areas of biomedical research that enable personalized medicine. Participants will engage in open source programming using the NA-MIC Kit, algorithm design, medical imaging sequence development, tracking experiments, and clinical application. The main goal of this event is to move forward the translational research deliverables of the sponsoring centers and their collaborators. Active and potential collaborators are encouraged and welcome to attend this event. This event will be set up to maximize informal interaction between participants. If you would like to learn more about this event, please click here to join our mailing list.

Active preparation begins on Thursday, April 28th at 3pm ET, with a kick-off teleconference. Invitations to this call will be sent to members of the sponsoring communities, their collaborators, past attendees of the event, as well as any parties who have expressed an interest in working with these centers. The main goal of the kick-off call is to get an idea of which groups/projects will be active at the upcoming event, and to ensure that there is sufficient coverage for all. Subsequent teleconferences will allow for more focused discussions on individual projects and allow the hosts to finalize the project teams, consolidate any common components, and identify topics that should be discussed in breakout sessions. In the final days leading upto the meeting, all project teams will be asked to fill in a template page on this wiki that describes the objectives and plan of their projects.

The event itself will start off with a short presentation by each project team, driven using their previously created description, and will help all participants get acquainted with others who are doing similar work. In the rest of the week, about half the time will be spent in breakout discussions on topics of common interest of subsets of the attendees, and the other half will be spent in project teams, doing hands-on project work. The hands-on activities will be done in 40-50 small teams of size 2-4, each with a mix of multi-disciplinary expertise. To facilitate this work, a large room at MIT will be setup with several tables, with internet and power access, and each computer software development based team will gather on a table with their individual laptops, connect to the internet to download their software and data, and be able to work on their projects. Teams working on projects that require the use of medical devices will proceed to Brigham and Women's Hospital and carry out their experiments there. On the last day of the event, a closing presentation session will be held in which each project team will present a summary of what they accomplished during the week.

This event is part of the translational research efforts of NA-MIC, NCIGT, NAC, Harvard Catalyst, and CIMIT. It is an expansion of the NA-MIC Summer Project Week that has been held annually since 2005. It will be held every summer at MIT and Brigham and Womens Hospital in Boston, typically during the last full week of June, and in Salt Lake City in the winter, typically during the second week of January.

A summary of all past NA-MIC Project Events is available here.

Logistics

• Dates: June 20-24, 2011
• Location: MIT. Grier Rooms A & B: 34-401A & 34-401B.
• REGISTRATION: Please register here. Payment must be made by credit card.
• Registration Fee: $260 (covers the cost of breakfast, lunch and coffee breaks for the week).
• Hotel: Boston Marriott Cambridge, Two Cambridge Center, 50 Broadway, Cambridge, MA 02142. Group rate is $199/night plus tax. Book here or call 1-617-494-6600 and mention that you are booking in the MIT Room Block. All reservations must be made by May 29, 2011 to receive the discounted rate.

Preparation

1. Please make sure that you are on the http://public.kitware.com/cgi-bin/mailman/listinfo/na-mic-project-week mailing list
2. The NA-MIC engineering team will be discussing infrastructure projects in a kickoff TCON on April 28, 3pm ET. In the weeks following, new and old participants from the above mailing list will be invited to join to discuss their projects, so please make sure you are on it!
3. By 3pm ET on Thursday May 12, all participants to add a one line title of their project to #Projects
4. By 3pm ET on Thursday June 9, all project leads to complete Complete a templated wiki page for your project. Please do not edit the template page itself, but create a new page for your project and cut-and-paste the text from this template page. If you have questions, please send an email to tkapur at bwh.harvard.edu.
5. By 3pm on June 16: Create a directory for each project on the NAMIC Sandbox (Zack)
   1. Commit on each sandbox directory the code examples/snippets that represent our first guesses of appropriate methods. (Luis and Steve will help with this, as needed)
   2. Gather test images in any of the Data sharing resources we have (e.g. XNAT/MIDAS). These ones don't have to be many. At least three different cases, so we can get an idea of the modality-specific characteristics of these images. Put the IDs of these data sets on the wiki page. (the participants must do this.)
   3. Setup nightly tests on a separate Dashboard, where we will run the methods that we are experimenting with. The test should post result images and computation time. (Zack)
6. Please note that by the time we get to the project event, we should be trying to close off a project milestone rather than starting to work on one...
7. People doing Slicer related projects should come to project week with slicer built on your laptop.
   1. Projects to develop extension modules should work with the Slicer-3-6 branch (new code should not be checked into the branch).
   2. Projects to modify core behavior of slicer should be done on the trunk.

Registrants

Do not add your name to this list- it is maintaining by the organizers based on your paid registration (see Logistics for link)

1. Nicole Aucoin , Brigham and Women's Hospital
2. Dominique Belhachemi , University of Pennsylvania
3. Anthony Blumfiled , Radnostics
4. Lucile Bompard , UNC NIRAL
5. Sylvain Bouix , Brigham and Women's Hospital
6. Francois Budin , UNC NIRAL
7. Steve Callahan , University of Utah
8. Joshua Cates , University of Utah
9. Laurent Chauvin , Brigham and Women's Hospital
10. Adrian Dalca , MIT CSAIL
11. Manasi Datar , University of Utah
12. Colin Davey ,
13. Ryan Eckbo , Brigham and Women's Hospital
14. Jan Egger , University Hospital of Marburg
15. Luping Fang , Zhejiang University of Technology, China
16. mahshid farzinfar , UNC
17. Andriy Fedorov , Brigham and Women's Hospital
18. Julien Finet , Kitware Inc.
19. James Fishbaugh , University of Utah
20. Greg Gardner , University of Utah
21. Ronen Globinsky , Yale University
22. Maged Goubran , Robarts Research Institute
23. Daniel Haehn , University of Pennsylvania
24. Mike Halle , Brigham and Women's Hospital
25. Noby Hata , Brigham and Women's Hospital
26. Tamas Heffter , Queen's University
27. Andrei Irimia , University of California, Los Angeles
28. Hans Johnson , University of Iowa
29. Ilknur Kabul , Kitware
30. Tina Kapur , Brigham and Women's Hospital
31. Ron Kikinis , Brigham and Women's Hospital; Harvard Medical School
32. Regina Kim , University of Iowa
33. Szymon Kostrzewski , Ecole Polytechnique Federale de Lausanne EPFL
34. Dillon Lee , University of Utah
35. Yinpeng Li , UNC-NIRAL
36. Yifei Lou , Georgia Institute of Technology
37. mohsen mahvash , Harvard Medical School (BWH and VA)
38. Katie Mastrogiacomo , Brigham and Women's Hospital
39. Joy Matsui , University of Iowa
40. Dominik Meier , BWH
41. Mikhail Milchenko , Washington University in St. Louis
42. James Miller , GE Research
43. Isaiah Norton , Brigham and Women's Hospital
44. Danielle Pace , Kitware
45. Beatriz Paniagua , University of North Carolina at Chapel Hill
46. Xenophon Papademetris , Yale University
47. Kedar Patwardhan , GE Global Research
48. Steve Pieper , Isomics, Inc.
49. Csaba Pinter , Queen's University
50. Wendy Plesniak , Brigham and Women's Hospital
51. Kilian Pohl , UPenn
52. Marcel Prastawa , University of Utah
53. Sonia Pujol , Brigham and Women's Hospital
54. Martin Rajchl , Robarts Research Institute
55. Petter Risholm , Brigham and Women's Hospital
56. Peter Savadjiev , Brigham and Women's Hospital
57. Andreas Schuh , University of Pennsylvania
58. Mark Scully , University of Iowa
59. Gregory Sharp , MGH
60. Yundi Shi , UNC-Chapel Hill
61. Nadya Shusharina , MGH
62. Ramesh Sridharan , MIT CSAIL
63. Hao Su , WPI
64. Suarez Tamekue , Brigham and Women's Hospital
65. Xiaodong Tao , GE Research
66. Clement Vachet , UNC Chapel Hill
67. Antonio Vega , Brigham and Women's Hospital
68. Gopal Veni , University of Utah
69. Bo Wang , University of Utah
70. Demian Wasserman , Brigham and Women's Hospital
71. Sandy Wells , Brigham and Women's Hospital
72. Jason White , Brigham and Women's Hospital
73. Atsushi Yamada , Brigham and Women's Hospital
74. Alexander Yarmarkovich , Isomics
75. Alexander Zaitsev , Brigham and Women's Hospital