2013 Summer Project Week

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Dates: June 17-21, 2013.

Location: MIT, Cambridge, MA.

Agenda

Projects

Please use this template to create wiki pages for your project. Then link the page here with a list of key personnel.

Some Stats

69 Projects, 95 Attendees. First time attendees? 5+ time attendees?

Huntington's Disease

• Learn and Apply FiberBundleLabelSelect for Huntington's Disease Data (Hans, Demian)
• Investigate Potential Tensor Computation Improvement via Positive Semi-Definite (PSD) Tensor Estimation (Hans)
• Single Precision Registration (Hans, Brad Lowekamp, Dave, Ali Ghayoor)
• Dynamically Configurable Quality Assurance Module for Large Huntington's Disease Database Frontend (Dave)
• DWIConvert (Dave, Kent Williams)
• Enhance and update SPL atlas (Dave, Hans)
• Linear Mixed-effects shape model to explore Huntington's Disease Data (Manasi, Dave, Hans, Ross)

Traumatic Brain Injury

• Visualization and quantification of peri-contusional white matter bundles in traumatic brain injury using diffusion tensor imaging (Andrei Irimia, Micah Chambers, Ron Kikinis, Jack van Horn)
• Clinically oriented assessment of local changes in the properties of white matter affected by intra-cranial hemorrhage (Andrei Irimia, Micah Chambers, Ron Kikinis, Jack van Horn)
• Validation and testing of 3D Slicer modules implementing the Utah segmentation algorithm for traumatic brain injury (Bo Wang, Marcel Prastawa, Andrei Irimia, Micah Chambers, Guido Gerig, Jack van Horn)
• Exploring multi-modal registration for improved longitudinal modeling of patient-specific 4D DTI data (Anuja Sharma, Bo Wang, Andrei Irimia, Micah Chambers, Guido Gerig, Jack van Horn)
• A Portable Ultrasound Device for Intracranial Hemorrhage Detection (Jason White, Vicki Noble, Kirby Vosburgh)

Atrial Fibrillation and Cardiac Image Analysis

• Fibrosis distribution analysis (Yi Gao, LiangJia Zhu, Rob MacLeod, Josh Cates, Ron Kikinis, Allen Tannenbaum)
• Cardiac MRI Toolkit LA segmentation and enhancement quantification workflow wizard (Salma Bengali, Alan Morris, Brian Zenger, Josh Cates, Rob MacLeod)
• Cardiac MRI Toolkit Documentation Project (Salma Bengali, Alan Morris, Brian Zenger, Josh Cates, Rob MacLeod)
• LA model visualization (Salma Bengali, Alan Morris, Josh Cates, Rob MacLeod)
• Cardiac MRI Toolkit: Automatic LA Segmentation with Graph Cuts Module (Salma Bengali, Alan Morris, Josh Cates, Gopal, Ross Whitaker, Rob MacLeod)
• Medical Volume Segmentation Using Sobolev Active Contours (Arie Nakhmani, Yi Gao, LiangJia Zhu, Rob MacLeod, Josh Cates, Ron Kikinis, Allen Tannenbaum)
• Left Ventricle Motion Analysis using Tagged MRI (Yang Yu, Shaoting Zhang, Dimitris Metaxas)

Radiation Therapy

• Landmark Registration (Steve, Nadya, Greg, Paolo, Erol)
• SlicerRT: Dicom-RT Export (Greg Sharp, Kevin Wang, Csaba Pinter)
• Proton dose calculation (Greg Sharp, Kevin Wang, Maxime Desplanques)
• Deformable registration validation toolkit (Greg Sharp, Kevin Wang, Andrey Fedorov)
• Deformable transform handling in Transforms module (Csaba Pinter, Alex Yarmarkovich, Andras Lasso)
• Creating DICOM series from ultrasound for prostate HDR brachytherapy (Adam Rankin)
• Analysis of different atlas-based segmentation techniques for parotid glands (Christian Wachinger, Karl Fritscher, Greg Sharp, Matthew Brennan)
• DICOM communication between Slicer and Oncentra Prostate radiation therapy planning system (Andrey Fedorov, Csaba Pinter, Emily Neubauer-Sugar, Alireza Mehrtash)

IGT and Device Integration with Slicer

• Tract Atlas and Clustering for Neurosurgery (Lauren O'Donnell)
• SlicerIGT extension (Tamas Ungi, Junichi Tokuda, Laurent Chauvin)
• Ultrasound Calibration (Matthew Toews, Daniel Kostro, William Wells, Stephen Aylward, Isaiah Norton, Tamas Ungi)
• Ultrasound Needle Detection (Alireza Mehrtash, Daniel Kostro, Matthew Toews, Tamas Ungi, William Wells, Tina Kapur)
• Liver Trajectory Management (Laurent Chauvin, Junichi Tokuda)
• 4D Ultrasound (Laurent Chauvin, Junichi Tokuda)
• Label map statistics (Laurent Chauvin, Csaba Pinter)
• Perk Tutor Extension (Matthew Holden, Tamas Ungi)
• Open-source electromagnetic trackers using OpenIGTLink (Peter Traneus Anderson, Tina Kapur, Sonia Pujol)
• Segmentation of Prostate Gland from 3D US for Prostate Interventions (Xu Li, Andriy Fedorov, Tina Kapur, William Wells)
• Registration of an MRI delineated image of the Prostate Gland ot a 3D US for Prostate Interventions (Demian Wassermann, Andriy Fedorov, Tina Kapur, William Wells)
• MRI-guided robotic prostate interventinos (Greg Fischer, Junichi Tokuda, Nobuhiko Hata, Clare Tempnay)

Chronic Obstructive Pulmonary Disease

• Porting Airway Inspector to Slicer 4 (Raul San Jose, Demian Wassermann, Rola Harmouche)
• Airway Inspector: Slicer Extension and MRML Infrastructure (Demian Wassermann, Raul San Jose, Rola Harmouche)
• Integration of Nipype with CLI modules in the Chest Imaging Platform Library (Rola Harmouche,Demian Wassermann, Raul San Jose)

Additional Collaborations

• Spine Segmentation & Osteoporosis Detection In CT Imaging Studies (Anthony Blumfield, Ron Kikinis)
• Computer Assisted Reconstruction of Complex Bone Fractures (Karl Fritscher, Peter Karasev, Ivan Kolesov, Allen Tannenbaum, Ron Kikinis)
• XNAT 3D Viewer (Amanda Hartung, Steve Pieper, Daniel Haehn)
• Interface for the integration of a KUKA robot using OpenIGTLink (Sebastian Tauscher, Thomas Neff, Junichi Tokuda, Nobuhiko Hata)
• Application of Statistical Shape Modeling to Robot Assisted Spine Surgery (Marine Clogenson)
• Robot Control (A.Vilchis, J-C. Avila-Vilchis, S.Pujol)
• Identification of MRI Blurring in Temporal Lobe Epilepsy Surgery (Luiz Murta)
• Is Neurosurgical Rigid Registration Really Rigid? (Athena)
• Individualized Neuroimaging Content Analysis using 3D Slicer (Sidong Liu, Weidong Cai, Sonia Pujol, Ron Kikinis)
• Cranio-Maxillofacial Registration (Vinicius Boen)
• DTI Analysis Pipeline as Slicer4 Extensions (Francois Budin)
• Web-based anatomical teaching framework (Lilla Zollei, Nathaniel Reynolds, Daniel Haehn, Nicolas Rannou, Steve Pieper, Rudolph Pienaar)
• 3D Slicer based Biomedical image computing teaching modules (A. Vilchis, J-C. Avila-Vilchis, S. Pujol)
• Analyzing Breast Tumor Heterogeneity Using 3D Slicer (Sneha Durgapal, Jayender Jagadeesan, Tobias Penzkofer, Vivek Narayan)
• WMH Segmentation for Stroke (Adrian Dalca, Ramesh Sridharan, Kayhan Batmanghelich, Polina Golland)
• White Matter Query Language (WMQL) Integration in Slicer (Demian Wassermann, Carl-Fredrik Westin)

Infrastructure

• Markups/Annotations rewrite (Nicole Aucoin, Ron Kikinis)
• Patient hierarchy (Csaba Pinter, Andras Lasso, Steve Pieper)
• CLI Improvements (hierarchy nodes, related nodes, roles) (Andras Lasso, Csaba Pinter, Jc, Steve, Jim)
• CLI module implementation in Matlab (Andras Lasso, Jc, Steve, Jim)
• Sample Data (Steve Pieper, Jim Miller, Bill Lorensen, Jc)
• ITK -VTK wrapper (Paolo, Dave, Hans)
• Optimizing start time of slicer (Jc, Steve)
• Common resampling and conversion utility functions in Slicer (Csaba Pinter, Steve Pieper, Hans, Kevin Wang)
• Integrating CTK CLI modules into MeVisLab (Hans Meine, Steve, Jc)
• Common Usage GUI for SimpleITK (Brad Lowekamp, Hans Johnson, Dave Welch)
• Extension dependencies (Jc, Adam Rankin)
• Parameter (time) Hierarchy (Adam Rankin)
• ITK Shared I/O Libraries (Brad Lowekamp)

Background

We are pleased to announce the 17th PROJECT WEEK of hands-on research and development activity for applications in Neuroscience, Image-Guided Therapy 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 25th 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, CIMIT, and OCAIRO. 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 17-21, 2013.
• Location: Stata Center / RLE MIT.
• REGISTRATION: http://www.regonline.com/namic2013summerprojweek. Please note that as you proceed to the checkout portion of the registration process, RegOnline will offer you a chance to opt into a free trial of ACTIVEAdvantage -- click on "No thanks" in order to finish your Project Week registration.
• Registration Fee: $300.
• Hotel: Similar to previous years, no rooms have been blocked in a particular hotel.
• Room sharing: If interested, add your name to the list before May 27th. See here

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 projects in a their weekly teleconferences. 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 8, all participants to add a one line title of their project to #Projects
4. By 3pm ET on Thursday June 6, 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 13: Create a directory for each project on the NAMIC Sandbox (Matt)
   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. Where possible, 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. (Matt)
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. See the Developer Section of slicer.org for information.
   2. Projects to develop extension modules should be built against the latest Slicer4 trunk.

Registrants

Do not add your name to this list - it is maintained by the organizers based on your paid registration. (Please click here to register.)

1. Parth Amin, WIT, aminp@wit.edu
2. Charles Anderson, BWH, canderson26@partners.org
3. Peter Anderson, retired, traneus@verizon.net
4. Nicole Aucoin, BWH, nicole@bwh.harvard.edu
5. Juan Carlos Avila Vilchis, Univ del Estado de Mexico, jc.avila.vilchis@hotmail.com
6. Kayhan Batmanghelich, MIT, kayhan@csail.mit.edu
7. Salma Bengali, Univ UT, salma.bengali@carma.utah.edu
8. Anthony Blumfield, Radnostics, Anthony.Blumfield@Radnostics.com
9. Vinicius Boen, Univ Michigan, vboen@umich.edu
10. Matthew Brennan, MIT, brennanm@mit.edu
11. Francois Budin, NIRAL-UNC, fbudin@unc.edu
12. Ivan Buzurovic, BWH/HMS, ibuzurovic@lroc.harvard.edu
13. Josh Cates, Univ UT, cates@sci.utah.edu
14. Micah Chambers, UCLA, micahcc@ucla.edu
15. Laurent Chauvin, BWH - SPL, lchauvin@bwh.harvard.edu
16. Marine Clogenson, Ecole Polytechnique Federale de Lausanne (Switzerland), marine.clogenson@epfl.ch
17. Adrian Dalca, MIT, adalca@MIT.EDU
18. Matthew D'Artista, BWH - SPL, mdartista7@gmail.com
19. Manasi Datar, Univ UT-SCI Institute, datar@sci.utah.edu
20. Sneha Durgapal, BWH, durgapalsneha@gmail.com
21. Luping Fang, Zhejiang Univ of Technology (China), flp@zjut.edu.cn
22. Andriy Fedorov, BWH, fedorov@bwh.harvard.edu
23. Jean-Christophe Fillion-Robin, Kitware, jchris.fillionr@kitware.com
24. Gregory Fischer, WPI, gfischer@wpi.edu
25. Barton Fiske, zSpace Inc, bfiske@zspace.com
26. Matthew Flynn, WIT, flynnm3@wit.edu
27. Karl Fritscher, MGH, kfritscher@gmail.com
28. Yi Gao, Univ AL Birmingham, gaoyi.cn@gmail.com
29. Maria Gonzalez-Puente, WIT, gonzalezpuentem@wit.edu
30. Daniel Haehn, Boston Childrens Hospital, daniel.haehn@childrens.harvard.edu
31. Michael Halle, BWH-SPL, mhalle@bwh.harvard.edu
32. Rola Harmouche, BWH, rharmo@bwh.harvard.edu
33. Amanda Hartung, Rochester Inst of Tech, amh1646@rit.edu
34. Nobuhiko Hata, BWH, hata@bwh.harvard.edu
35. Nicholas Herlambang, AZE Technology Inc, nicholas.herlambang@azetech.com
36. Matthew Holden, Queen's Univ (Canada), mholden8@cs.queensu.ca
37. Andrei Irimia, UCLA, andrei.irimia@loni.ucla.edu
38. Jayender Jagadeesan, BWH-SPL, jayender@bwh.harvard.edu
39. Hans Johnson, Univ Iowa, hans-johnson@uiowa.edu
40. Tina Kapur, BWH/HMS, tkapur@bwh.harvard.edu
41. Alex Kikinis, BWH, alexkikinis@gmail.com
42. Ron Kikinis, HMS, kikinis@bwh.harvard.edu
43. Nils Klarlund, IEEE, klarlund@ieee.org
44. Daniel Kostro, BWH, dkostro@bwh.harvard.edu
45. Andras Lasso, Queen's Univ (Canada), lasso@cs.queensu.ca
46. Rui Li, GE Global Research, li.rui@ge.com
47. Xu Li, BWH, lixu0103@gmail.com
48. Lichen Liang, MGH, lichenl@nmr.mgh.harvard.edu
49. Sidong Liu, Univ Sydney (Australia), sliu7418@uni.sydney.edu.au
50. William Lorensen, Bill's Basement, bill.lorensen@gmail.com
51. Bradley Lowekamp, Medical Science & Computing Inc, bradley.lowekamp@nih.gov
52. Athena Lyons, Univ Western Australia, 20359511@student.uwa.edu.au
53. Nikos Makris, MGH, nikos@nmr.mgh.harvard.edu
54. Katie Mastrogiacomo, BWH - SPL, kmast@bwh.harvard.edu
55. Alireza Mehrtash, BWH - SPL, mehrtash@bwh.harvard.edu
56. Hans Meine, Fraunhofer MEVIS (Germany), hans.meine@mevis.fraunhofer.de
57. Jim Miller, GE Global Research, millerjv@ge.com
58. Luis Murta, Univ Sao Paulo (Brazil), lomurta@gmail.com
59. Arie Nakhmani, Univ AL Birmingham, anry@uab.edu
60. Isaiah Norton, BWH, inorton@bwh.harvard.edu
61. Lauren O'Donnell, BWH, odonnell@bwh.harvard.edu
62. Dirk Padfield, GE Global Research, padfield@research.ge.com
63. Jian Pan, Zhejiang Univ of Technology (China), pj@zjut.edu.cn
64. George Papadimitriou, MGH, georgep@nmr.mgh.harvard.edu
65. Nirav Patel, WPI, napatel@wpi.edu
66. Tobias Penzkofer, BWH - SPL, pt@bwh.harvard.edu
67. Rudolph Pienaar, Boston Childrens Hospital, Rudolph.Pienaar@childrens.harvard.edu
68. Steve Pieper, Isomics Inc, pieper@isomics.com
69. Csaba Pinter, Queen's Univ (Canada), pinter@cs.queensu.ca
70. Sonia Pujol, HMS, spujol@bwh.harvard.edu
71. Adam Rankin, Queen's Univ (Canada), rankin@cs.queensu.ca
72. Nathaniel Reynolds, MGH, reynolds@nmr.mgh.harvard.edu
73. Raul San Jose, BWH, rjosest@bwh.harvard.edu
74. Peter Savadjiev, BWH, petersv@bwh.harvard.edu
75. Anuja Sharma, Univ UT-SCI Institute, anuja@cs.utah.edu
76. Greg Sharp, MGH, gcsharp@partners.org
77. Nadya Shusharina, MGH, nshusharina@partners.org
78. Sebastian Tauscher, Leibniz Univ Hannover (Germany), sebastian.tauscher@imes.uni-hannover.de
79. Clare Tempany, BWH, ctempanyafdhal@partners.org
80. Cyrill von Tiesenhausen, KUKA Laboratories (Germany), cyrill.tiesenhausen@kuka.com
81. Gaurie Tilak, BWH, gaurie_tilak@hms.harvard.edu
82. Matthew Toews, BWH/HMS, mt@bwh.harvard.edu
83. Junichi Tokuda, BWH, tokuda@bwh.harvard.edu
84. Tamas Ungi, Queen's Univ (Canada), ungi@cs.queensu.ca
85. Adriana Vilchis González, Univ del Estado de Mexico, hvigady@hotmail.com
86. Kirby Vosburgh, BWH, kirby@bwh.harvard.edu
87. Christian Wachinger, MIT, wachinge@mit.edu
88. Bo Wang, Univ UT-SCI Institute, bowang@sci.utah.edu
89. Demian Wassermann, BWH, demian@bwh.harvard.edu
90. David Welch, Univ Iowa, david-welch@uiowa.edu
91. William Wells, BWH/HMS, sw@bwh.harvard.edu
92. Phillip White, BWH/HMS, white@bwh.harvard.edu
93. Alex Yarmarkovich, Isomics Inc, alexy@bwh.harvard.edu
94. Kitaro Yoshimitsu, BWH, kitarof1@bwh.harvard.edu
95. Yang Yu, Rutgers Univ, yyu@cs.rutgers.edu
96. Paolo Zaffino, Univ Magna Graecia of Catanzaro (Italy), p.zaffino@unicz.it
97. Lilla Zollei, MGH, lzollei@nmr.mgh.harvard.edu