Difference between revisions of "Events:Computational Methods for Radiation Oncology"
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+ | |||
+ | ==Summary== | ||
+ | |||
+ | [[Image:2011_May_UNC_NA-MIC_Radonc_Meeting.jpg|800px]] | ||
+ | |||
+ | 25 researchers attended this meeting from UNC, BWH, MGH, Harvard, and U Michigan. Several collaboration ideas have emerged and have been enumerated below. | ||
==Date and Location== | ==Date and Location== | ||
Line 18: | Line 24: | ||
*8am: Breakfast | *8am: Breakfast | ||
*8:30-10:30am: UNC -presentations about capabilities of current projects, short term and longer term plans | *8:30-10:30am: UNC -presentations about capabilities of current projects, short term and longer term plans | ||
− | **Julian Rosenman PLUNC 18 minutes | + | **'''Julian Rosenman''' PLUNC 18 minutes |
− | **Gregg Tracton Software for PLUNC, segmentation, registration 10 minutes | + | **'''Gregg Tracton''' Software for PLUNC, segmentation, registration 10 minutes |
− | **Stephen Pizer Registration by regression (2 methods), Segmentation via posterior optimization, training probability distributions on s reps and quantile functions, segmentation via correspondence-preserving warps, ant aliasing 23 minutes | + | **'''Stephen Pizer''' Registration by regression (2 methods), Segmentation via posterior optimization, training probability distributions on s reps and quantile functions, segmentation via correspondence-preserving warps, ant aliasing 23 minutes |
− | **Sha Chang Nanotube imaging, incl. for IGRT 10 minutes | + | **'''Sha Chang''' Nanotube imaging, incl. for IGRT 10 minutes |
− | **Brandon Frederick Iterative tomographic reconstruction, CTs at treatment time, gpu’s 15 minutes | + | **'''Brandon Frederick''' Iterative tomographic reconstruction, CTs at treatment time, gpu’s 15 minutes |
− | **Derek Merck 3D visualization via model-guided rendering, 3D visualization in PLUNC for RTP 15 minutes | + | **'''Derek Merck''' 3D visualization via model-guided rendering, 3D visualization in PLUNC for RTP 15 minutes |
− | **Ilknur Kabul Texturing of surfaces, onion skins, and cut planes; interpolation of textures 10 minutes | + | **'''Ilknur Kabul''' Texturing of surfaces, onion skins, and cut planes; interpolation of textures 10 minutes |
− | **Hina Shah Registration of endoscopic cine and CT of throat,fused displays of these two registered sources 8 minutes | + | **'''Hina Shah''' Registration of endoscopic cine and CT of throat,fused displays of these two registered sources 8 minutes |
− | **Ron Alterovitz Planning for brachytherapy with curved needles, FEM software 12 minutes | + | **'''Ron Alterovitz''' Planning for brachytherapy with curved needles, FEM software 12 minutes |
*10:30 am: Break | *10:30 am: Break | ||
− | * | + | *11:50am-2:30pm NA-MIC/Harvard presentations about capabilities of current projects, short term and longer term plans |
− | **Slicer3 to Slicer 4, Radiation Therapy support today, and plans for the next year [[media:Pieper-CMRO-2011-05-05.ppt|(slides)]] (Steve Pieper) (30 minutes) | + | **AMIGO (Tina Kapur) (5 minutes) |
− | ** | + | **Slicer3 to Slicer 4, Radiation Therapy support today, and plans for the next year [[media:Pieper-CMRO-2011-05-05.ppt|(slides)]] ('''Steve Pieper''') (30 minutes) |
− | **Head and Neck Cancer NA-MIC DBP ([[Media:2011-CMRO-Sharp.pdf|slides]]) (Greg Sharp) (15 minutes) | + | **SPARKit, Canadian grant for providing open source software platform for radiotherapy, potentially based on NA-MIC Kit [[Media:SparKitIntroBostonRadOnc2011.pdf|(slides)]] ('''Andras Lasso''') (10minutes) |
− | **Gynecologic Cancer Brachytherapy Plans (Tina Kapur) ( | + | **Head and Neck Cancer NA-MIC DBP ([[Media:2011-CMRO-Sharp.pdf|slides]]) ('''Greg Sharp''') (15 minutes) |
− | **Shadie, shading language for volume visualization(Hanspeter Pfister, Milos Hasan, George Chen, John Wolfgang) (20 minutes) | + | **Gynecologic Cancer Brachytherapy Plans ('''Tina Kapur''') (10 minutes) |
− | * | + | **Shadie, shading language for volume visualization [[media:Shadie-BW-2011.pdf|(slides)]] ('''Hanspeter Pfister, Milos Hasan, George Chen, John Wolfgang''') (20 minutes) |
− | + | *Continue presentations... | |
− | * | + | *2:30pm: Intro of afternoon objectives ('''Julian Rosenman''') |
− | * | + | *2:45pm: What UNC/Boston system combinations ought to be developed -- the Boston perspective ('''Tina Kapur''') |
− | * | + | *3pm: What Boston/UNC system combinations ought to be developed -- the UNC perspective ('''Steve Pizer''') |
− | * | + | *3:30pm: Comments from Kitware about their capabilities relevant to proposed combinations ('''Brad Davis''') |
− | * | + | *4-5pm |
− | * | + | ** Break and subgroup formation (e.g., merging surgical and radiation treatment planning system; 3D visualization software for treatment planning; image analysis software for treatment planning) |
+ | ** Subgroups sketch out mechanics for collaborations (http://grants.nih.gov/grants/guide/pa-files/PAR-11-028.html?) | ||
+ | **Summary: what we do next? | ||
+ | |||
+ | ==Participants== | ||
+ | |||
+ | #Julian Rosenman, Radiation Oncology, UNC | ||
+ | #Gregg Tracton, Radiation Physics UNC | ||
+ | #Stephen Pizer, CS and Rad Onc UNC | ||
+ | #Sha Chang, Radiation Physics UNC | ||
+ | #Brandon Frederick, UNC | ||
+ | #Derek Merck, UNC | ||
+ | #Ilknur Kabul UNC | ||
+ | #Hina Shah UNC | ||
+ | #Ron Alterovitz UNC | ||
+ | #Ron Kikinis BWH | ||
+ | #Clare Tempany BWH | ||
+ | #Ferenc Jolesz BWH | ||
+ | #Sandy Wells BWH | ||
+ | #Steve Pieper Isomics | ||
+ | #Andras Lasso Queens | ||
+ | #Greg Sharp MGH | ||
+ | #Tina Kapur BWH | ||
+ | #Hanspeter Pfister Harvard | ||
+ | #George Chen MGH | ||
+ | #Petter Risholm BWH | ||
+ | #Andrey Fedorov BWH | ||
+ | #James Balter U Michigan | ||
+ | #Brad Davis Kitware | ||
+ | #Andinet Enquobahrie Kitware | ||
+ | #Firdaus Janoos BWH | ||
− | == | + | ==Potential Areas of Collaboration== |
− | # | + | #Multimodal registrations from BWH with PLUNC |
− | # | + | #ITK needs GPU codes |
− | # | + | #How to put UNC code into the open source world (from BWH experience) |
− | # | + | #Visual bookmarks as cf. Slicer (scene views) |
− | # | + | #Tolerance and other surface color washes on textured objects |
− | # | + | #Endoscopy and 3D MR segmentation: cervix |
− | # | + | #AMIGO w/ endoscopy |
− | # | + | #AMIGO w/ curved needles |
− | # | + | #Curved needles for biopsies |
− | # | + | #Optical CT inclusion |
− | # | + | #FEM modeling sharings between BWH and UNC |
− | # | + | #Robotics and device tracking sharing: BWH has device tracking expertise: OPENIGT |
− | # | + | #Shadie/MGRView or 3D PLUNC or 3D Slicer integration |
− | # | + | #Adding cmake/software process to PLUNC |
− | # | + | #Problem: how to integrate object-based coordinate systems into object models and integrate UI controls within those coordinate systems? |
− | # | + | #MGRView w/ ray-cast volume rendering a la volview/vtk |
− | # | + | #Inclusion of Ontario ARKit/SparKit? (adaptive RT) |
− | # | + | #What can be taken from PLUNC into Slicer right away? |
− | # | + | #There needs to be a remodeling of PLUNC licensing to meet the Slicer sharing philosophy |
− | # | + | #US-to-MR or -CT registration brought to RT |
− | # | + | #Visualize uncertainty by painting over texture (Pfister/UNC) |
− | #James | + | #Combine Shadie language with MGRView/PLUNC 3Dview capabilities |
− | # | + | #Image analysis and visualization via Slicer (selected modules in use) into PLUNC into MOSAIQ, etc. |
− | # | + | #PLUNC Need: Flexibility/refactor?. Multimodal registration. Including context; annotations |
+ | #Is there a role for python, numpy? | ||
+ | #Note: WashU CERR has a simple dose engine. Do we integrate that? | ||
+ | #2d-3d Registration for IGRT using Nanotube Stationary Tomosynthesis from Siemens, Xinray | ||
+ | #Head and Neck Segmentation by registration and refinement | ||
+ | #Antialiasing algorithm | ||
+ | ##How will antialiasing impact DVHs? What is the drift in the dose distribution | ||
+ | ##Morphomics Segmentation software for Prostate and Cervix maybe | ||
+ | #James balter collaboration LA problem | ||
+ | #ITK should have GPU support | ||
+ | #Potential tools from UNC: | ||
+ | ##Antialiasing software (potential project week project -- steve pizer, brad davis, petter risholm, andriy fedorov) | ||
+ | ##Iterative reconstruction software is shareable | ||
+ | ##General GPU tools | ||
+ | ##Manual Editing of alignment | ||
+ | ##Dose accumulation calculation | ||
+ | #Mechanisms | ||
+ | ##Software maintenance R01 | ||
+ | ##BRP collaborative grant | ||
+ | #Registration of endoscopic images with CT for IGRT: Gyn colposcopy | ||
+ | #Steerable needle planning for gyne brachytherapy | ||
+ | #How to close the loop with feedback for needle insertion and steering for prostate brachy? | ||
+ | #Open FEM standard for RT | ||
+ | #Slicer License for UNC review: http://www.slicer.org/pages/LicenseText | ||
+ | #http://wiki.na-mic.org/Wiki/index.php/2011_Summer_Project_Week |
Latest revision as of 16:24, 6 May 2011
Home < Events:Computational Methods for Radiation OncologyBack to Events
Summary
25 researchers attended this meeting from UNC, BWH, MGH, Harvard, and U Michigan. Several collaboration ideas have emerged and have been enumerated below.
Date and Location
Date: Thursday, May 5, 2011
Location: Surgery Education Office, Room CA-034, Carrie Hall, 15 Francis Street. (Directions)
In addition, the following information is useful for first time visitors to the hospital:
- http://www.brighamandwomens.org/about_bwh/locations/directions/default.aspx
- On the "Pike map" PDF link (bottom of page), the Carrie Hall building is closest to the 15 Francis St entrance -- enter through the columns.
- On Google Street View/Map, the Carrie Hall building is near the label "Howard Hughes Medical Institute".
Agenda
To brainstorm computational methods for radiation oncology between UNC, NA-MIC, BWH.
- 8am: Breakfast
- 8:30-10:30am: UNC -presentations about capabilities of current projects, short term and longer term plans
- Julian Rosenman PLUNC 18 minutes
- Gregg Tracton Software for PLUNC, segmentation, registration 10 minutes
- Stephen Pizer Registration by regression (2 methods), Segmentation via posterior optimization, training probability distributions on s reps and quantile functions, segmentation via correspondence-preserving warps, ant aliasing 23 minutes
- Sha Chang Nanotube imaging, incl. for IGRT 10 minutes
- Brandon Frederick Iterative tomographic reconstruction, CTs at treatment time, gpu’s 15 minutes
- Derek Merck 3D visualization via model-guided rendering, 3D visualization in PLUNC for RTP 15 minutes
- Ilknur Kabul Texturing of surfaces, onion skins, and cut planes; interpolation of textures 10 minutes
- Hina Shah Registration of endoscopic cine and CT of throat,fused displays of these two registered sources 8 minutes
- Ron Alterovitz Planning for brachytherapy with curved needles, FEM software 12 minutes
- 10:30 am: Break
- 11:50am-2:30pm NA-MIC/Harvard presentations about capabilities of current projects, short term and longer term plans
- AMIGO (Tina Kapur) (5 minutes)
- Slicer3 to Slicer 4, Radiation Therapy support today, and plans for the next year (slides) (Steve Pieper) (30 minutes)
- SPARKit, Canadian grant for providing open source software platform for radiotherapy, potentially based on NA-MIC Kit (slides) (Andras Lasso) (10minutes)
- Head and Neck Cancer NA-MIC DBP (slides) (Greg Sharp) (15 minutes)
- Gynecologic Cancer Brachytherapy Plans (Tina Kapur) (10 minutes)
- Shadie, shading language for volume visualization (slides) (Hanspeter Pfister, Milos Hasan, George Chen, John Wolfgang) (20 minutes)
- Continue presentations...
- 2:30pm: Intro of afternoon objectives (Julian Rosenman)
- 2:45pm: What UNC/Boston system combinations ought to be developed -- the Boston perspective (Tina Kapur)
- 3pm: What Boston/UNC system combinations ought to be developed -- the UNC perspective (Steve Pizer)
- 3:30pm: Comments from Kitware about their capabilities relevant to proposed combinations (Brad Davis)
- 4-5pm
- Break and subgroup formation (e.g., merging surgical and radiation treatment planning system; 3D visualization software for treatment planning; image analysis software for treatment planning)
- Subgroups sketch out mechanics for collaborations (http://grants.nih.gov/grants/guide/pa-files/PAR-11-028.html?)
- Summary: what we do next?
Participants
- Julian Rosenman, Radiation Oncology, UNC
- Gregg Tracton, Radiation Physics UNC
- Stephen Pizer, CS and Rad Onc UNC
- Sha Chang, Radiation Physics UNC
- Brandon Frederick, UNC
- Derek Merck, UNC
- Ilknur Kabul UNC
- Hina Shah UNC
- Ron Alterovitz UNC
- Ron Kikinis BWH
- Clare Tempany BWH
- Ferenc Jolesz BWH
- Sandy Wells BWH
- Steve Pieper Isomics
- Andras Lasso Queens
- Greg Sharp MGH
- Tina Kapur BWH
- Hanspeter Pfister Harvard
- George Chen MGH
- Petter Risholm BWH
- Andrey Fedorov BWH
- James Balter U Michigan
- Brad Davis Kitware
- Andinet Enquobahrie Kitware
- Firdaus Janoos BWH
Potential Areas of Collaboration
- Multimodal registrations from BWH with PLUNC
- ITK needs GPU codes
- How to put UNC code into the open source world (from BWH experience)
- Visual bookmarks as cf. Slicer (scene views)
- Tolerance and other surface color washes on textured objects
- Endoscopy and 3D MR segmentation: cervix
- AMIGO w/ endoscopy
- AMIGO w/ curved needles
- Curved needles for biopsies
- Optical CT inclusion
- FEM modeling sharings between BWH and UNC
- Robotics and device tracking sharing: BWH has device tracking expertise: OPENIGT
- Shadie/MGRView or 3D PLUNC or 3D Slicer integration
- Adding cmake/software process to PLUNC
- Problem: how to integrate object-based coordinate systems into object models and integrate UI controls within those coordinate systems?
- MGRView w/ ray-cast volume rendering a la volview/vtk
- Inclusion of Ontario ARKit/SparKit? (adaptive RT)
- What can be taken from PLUNC into Slicer right away?
- There needs to be a remodeling of PLUNC licensing to meet the Slicer sharing philosophy
- US-to-MR or -CT registration brought to RT
- Visualize uncertainty by painting over texture (Pfister/UNC)
- Combine Shadie language with MGRView/PLUNC 3Dview capabilities
- Image analysis and visualization via Slicer (selected modules in use) into PLUNC into MOSAIQ, etc.
- PLUNC Need: Flexibility/refactor?. Multimodal registration. Including context; annotations
- Is there a role for python, numpy?
- Note: WashU CERR has a simple dose engine. Do we integrate that?
- 2d-3d Registration for IGRT using Nanotube Stationary Tomosynthesis from Siemens, Xinray
- Head and Neck Segmentation by registration and refinement
- Antialiasing algorithm
- How will antialiasing impact DVHs? What is the drift in the dose distribution
- Morphomics Segmentation software for Prostate and Cervix maybe
- James balter collaboration LA problem
- ITK should have GPU support
- Potential tools from UNC:
- Antialiasing software (potential project week project -- steve pizer, brad davis, petter risholm, andriy fedorov)
- Iterative reconstruction software is shareable
- General GPU tools
- Manual Editing of alignment
- Dose accumulation calculation
- Mechanisms
- Software maintenance R01
- BRP collaborative grant
- Registration of endoscopic images with CT for IGRT: Gyn colposcopy
- Steerable needle planning for gyne brachytherapy
- How to close the loop with feedback for needle insertion and steering for prostate brachy?
- Open FEM standard for RT
- Slicer License for UNC review: http://www.slicer.org/pages/LicenseText
- http://wiki.na-mic.org/Wiki/index.php/2011_Summer_Project_Week