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`Document title: Documentation/4.x/Acknowledgments - Slicer Wiki
`Capture URL: https://www.slicer.org/wiki/Documentation/4.x/Acknowledgments
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`Home < Documentation < 4.x < Acknowledgments
`
`
`
`Citing Slicer
`
`To acknowledge 3D Slicer as a platform, please cite the Slicer web site (http://www.slicer.org@) and the following publication:
`
`Fedorov A., Beichel R., Kalpathy-Cramer J., Finet J., Fillion-Robin J-C., Pujol S., Bauer C., Jennings D., Fennessy F., Sonka M., Buatti J.. Aylward S.R., Miller
`
`J.V., Pieper S., Kikinis R. 3D Slicer as an Image Computing Platform for the Quantitative Imaging Network. Magnetic Resonance Imaging. 2012
`
`Nov;30(9):1323-41. PMID: 22770690.
`
`
`
`
`
`
`
`Slicer is made possible through contributions from an international community of scientists from a multitude of fields, including engineering and biomedicine.
`The following sections give credit to some of the major contributors to the 3D Slicer core effort. Each 3D Slicer extension has a separate acknowledgements
`
`page with information specific to that extension.
`
`Ongoing Slicer support depends on YOU
`
`= Please give the Slicer repository a star on github®. This is an easy way to show thanks and it can help us qualify for useful services that are only open to
`
`widely recognized open projects.
`
`= Don't forget to cite our publications because that helps us get new grant funding.
`
`=
`
`If you find Slicer is helpful like the community please get involved. You don't need to be a programmer to help!
`
`Major Contributors
`
`= Ron Kikinis: Principal Investigator
`
`= Steve Pieper: Chief Architect
`
`= Jean-Christophe Fillion-Robin: Lead Developer
`
`» Nicole Aucoin
`
`= Stephen Aylward
`
`= Andrey Fedorov
`
`= Noby Hata
`
`» Hans Johnson
`
`= Tina Kapur
`
`= Gabor Fichtinger
`
`= Andras Lasso
`
`= Csaba Pinter
`
`« Jim Miller
`
`» Sonia Pujol: Director of Training
`
`= Junichi Tokuda
`
`= Lauren O'Donnell
`
`» Andinet Enquobahrie
`
`= Beatriz Paniagua
`
`
`Contents [hide]
`
`1 Major Contributors
`
`2 Groups Contributing to the Core Engineering of Slicer in a Major Way
`
`3 Funding Sources
`
`3.1 Grants
`
`3.2 Commercial Partners
`
`
`
`3.3 Slicer Based Products and Product Prototypes
`
`
`
`
`Contributors are not only developers, but also individual helping to secure funding and move the platform forward.
`
`Groups Contributing to the Core Engineering of Slicer in a Major Way
`
`» SPL: Ron Kikinis, Nicole Aucoin, Lauren O'Donnell, Andrey Fedorov, Isaiah Norton, Sonia Pujol, Noby Hata, Junichi Tokuda
`
`= Isomics: Steve Pieper, Alex Yarmarkovich
`
`« Kitware: Jean-Christophe Fillion-Robin, Julien Finet, Will Schroeder, Stephen Aylward, Andinet Enquobahrie, Beatriz Paniagua, Matt McCormick, Johan
`
`Andruejol, Max Smolens, Alexis Girault, Sam Horvath
`
`= University of lowa: Hans Johnson
`
`= GE: Jim Miller
`
`= Perk Lab, Queen's University: Andras Lasso, Tamas Ungi, Csaba Pinter, Gabor Fichtinger
`
`= Kapteyn Astronomical Institute, University of Groningen: Davide Punzo
`
`Funding Sources
`
`Many of the activities around the Slicer effort are made possible through funding from public and private sources. The National Institutes of Health of the USA is
`
`3DSlicer
`
`About slicer
`= Introduction
`» Acknowledgments
`
`= News
`= Contact Us
`=» Licensing
`=» Commercial Use
`
`Publication
`» Publication DB
`= Image Gallery
`= Slicer Community
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`= Citing Slicer
`
`Documentation
`= Slicer Training
`= User manual
`
`=» Developer manual
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`Help
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`. Help
`= User Q&A
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`= Developer FAQ
`» Discussion Forum
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`= Downloads
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`» Printable version
`
`=» Permanent link
`
`= Page information
`
`= Cite this page
`
`
`
`Medivis Exhibit 1017
`
`2
`
`

`

`Document title: Documentation/4.x/Acknowledgments - Slicer Wiki
`Capture URL: https://www.slicer.org/wiki/Documentation/4.x/Acknowledgments
`Capture timestamp (UTC): Mon, 15 May 2023 19:08:14 GMT
`
`Page 2 of 4
`
`Funding Sources
`
`Many of the activities around the Slicer effort are made possible through funding from public and private sources. The National Institutes of Health of the USA is
`
`a major contributor through a variety of competitive grants and contracts.
`
`Grants
`
`For more information on how this table was created, see this page.
`
`Grant Numbe
`Start
`End
`Project Name
`¢
`ra
`um
`r
`+
`Title (and Project Page)
`+
`Grant Pls
`¢
`+
`"
`+
`and NIH Link
`Date
`Date
`
`Renal Biops
`R44DK1153328
`Advanced virtual simulator for real-time
`Enquobahrie,
`2019-
`2021-
`psy
`ultrasound-guided renal biopsy training
`Andinet A.
`08-13 | 07-31
`
`.
`Software for Practical Annotation and
`Enquobahrie,
`2019-
`2021-
`a
`Software annotation
`ROTEBO252%2
`Exchange of Virtual Anatomy
`Andinet A.
`07-02 | 03-31
`
`Computer Modeling of the Tricuspid Valve | 1RO1HL153166-
`Computer Modeling of the Tricuspid Valve in
`Matthew Jolle
`2021-
`2025-
`
`in Hypoplastic Left Heart Syndrome
`018
`Hypoplastic Left Heart Syndrome
`4
`06-30
`06-30
`
`CANARIE RS-319 /
`Gabor Fichtinger,
`| 5018-
`| 2020-
`3D Slicer®
`anes Queen's
`07.15
`09-30
`
`3D Slicer for Radiation Therapy
`
`SlicerRT
`
`University
`
`CANARIE RS-214 /
`Gabor Fichtinger,
`| 5017-
`| 2020-
`3D Slicere
`aes Queen's
`07.15
`09-30
`
`3D Slicer for Image Guided Therapy
`
`SlicerlGT
`
`University
`
`i.
`.
`.
`a
`.
`2015- =| 2020-
`Pediatric Valve Modeling-Slicer Heart
`NA
`PediatricValveModeling
`Matthew Jolley
`08-15
`08-15
`
`2004- | 2020-
`DiffusionMRI
`2P41EB0158982
`Image Guided Therapy Center
`Clare M. Tempany
`04-01
`06-30
`
`Shape
`41RO1EB0213918
`Shape ee Toolbox for Medical Image
`Peale 2016-
`2020-
`
`Computing Projects
`09-19
`06-30
`
`Use of Slicer in a Wide Array of Image-guided
`2004
`9020-
`
`National Center for Image Guided Therapy | 5P41EB015898@
`
`Therapy Research for Prostate Cancer,
`
`Clare M. Tempany
`
`04 te
`
`06-30
`
`Neurosurgery, and Image Navigation
`
`Slicer-Radiomics-U24
`1U24CA1943548
`Quantitative Radiomics System Decoding the
`Hugo Aerts
`2015-
`2020-
`-
`-
`Tumor Phenotype
`9
`04-01
`| 03-31
`
`Slicer-Radiomics-U01
`1U01CA190234@ | Genotype and Imaging Phenotype Biomarkers || 1
`ware
`2015- | 2019
`in Lung Cancer
`01-01
`12-01
`
`Tools to Analyze Morphology and Spatially
`Tools to Analyze Morphology and Spatially
`2014-
`2019-
`5U24CA1809248
`Joel Saltz
`Mapped Molecular Data
`Mapped Molecular Data
`oem
`09-01
`08-31
`
`MRI Fl
`Te
`hy
`F
`tifyi
`2014-
`| 2019-
`NIRView (Dartmouth)
`5RO1CA184354@
`ea ee
`Tumor Receptor Concentration in vivo
`04-01
`02-28
`
`VROrth
`thi
`R43DE0275958
`High-Fidelity Virtual Reality Trainer for
`Beatriz
`Pani
`2017-
`2018-
`ognamic
`Orthognathic Surgery
`eat
`raniagua
`09-07 | 09-06
`
`Textural Biomarkers of Arthritis for the
`2016
`2018-
`-
`Subchondral Bone in the Temporomandibular
`.
`09-01
`08-31
`Joint
`
`4D Shape Analysis for Modeling
`2012
`2018-
`-
`Spatiotemporal Change Trajectories in
`.
`.
`09-28
`| 08-31
`Huntington’s Disease
`
`Quantitative Image Informatics for Cancer
`Ron Kikinis, Andrey | 2013-
`2018-
`ICR
`U24 CA180918@
`=
`Research (QIICR)#
`Fedorov
`09-04
`08-31
`
`SlicerDMRI Diffusion MRI
`4U01CA1994598
`oo
`Source Diffusion MRI Technology for
`Lauren Jean
`2015-
`2018-
`
`
`
`
`
`
`
`
`
`Ron
`
`on
`
`ao.
`Kiki
`ns
`
`2013-
`08-01
`
`2018-
`05-31
`
` Natahases
`
`CMF
`
`R21DE0253062
`
`HD_SHAPEANALSS
`
`1U01NS082086@
`
`Beatriz Paniagua
`
`Guido Gerig
`
`
`
`5P41EB015902
`
`N
`
`.
`.
`Anal
`euroimage Analysis
`
`Cent
`venler
`
`4P41EB015902@
`
`Neurosurgery and other Applications through
`Steered Computation and Image Navigation
`
`Application of Slicer to Image-guided
`
`
`
`Brain Cancer Research
`O'Donnell
`09-22
`07-31
`
`HD KIDS
`5RO1NS055903
`Growth and Development of the Striatum in
`p
`Nopoulos
`2009-
`2018-
`=
`Huntington's Disease
`eagy
`Nope
`03-01
`| 07-31
`
`cee
`.
`.
`.
`oo.
`2013- =| 2018-
`DiffusionMRI
`Neuroimaging Analysis Center (NAC)
`Ron Kikinis
`08-01
`05-31
`
`Medivis Exhibit 1017
`
`3
`
`

`

`Document title: Documentation/4.x/Acknowledgments - Slicer Wiki
`Capture URL: https://www.slicer.org/wiki/Documentation/4.x/Acknowledgments
`Capture timestamp (UTC): Mon, 15 May 2023 19:08:14 GMT
`
`Page 3 of 4
`
`
`Application of Slicer to Image-guided
`
`N
`
`.
`jouromage
`
`.
`Anal
`“nalysis
`
`Cent
`venmer
`
`4P41EB015902
`
`Ron
`
`ao.
`Kiki
`onnianls
`
`2013-
`08-01
`
`2018-
`| 05-31
`
`Neurosurgery and other Applications through
`Steered Computation and Image Navigation
`Databases
`
`Image-guided Planning System for Skull
`.
`2016- | 2018-
`G
`M
`aac
`Correction in Children with Craniosynostosis:
`anus
`Linguraru
`05-01
`04-30
`Phase II
`
`Dwi
`RO1CA160902
`Advancement and Validation of Prostate
`Stephan E. Maier
`2012-
`2018-
`
`Craniosynostosis
`
`2R42HD081712
`
`Diffusion and Spectroscopic MRI
`P
`:
`04-01
`02-28
`
`Quantification of 3D Bony Changes In
`.
`.
`2013-
`2017-
`&
`CMF
`eee
`ere ere ae Lucia Cevidanes
`| 04 49 | 08.31
`
`PET/CT Calibration Phantom
`oR42care7go7e | Calibrated Methods for Quantitative PETICT =| Bate Kinahan
`| 2012 | 2017-
`Imaging Phase II
`05-01
`07-31
`
`
`HD_TRACKON
`NA
`TRACK-ON HD
`Sarah Tabrizi
`2012 | 2016-
`-
`-
`ara
`fannie}
`01-01
`| 12-31
`
`.
`.
`Gabor Fichtinger,
`ee Care Ontario Applied Cancer Research cs 2011-
`
`Slicer-RT
`
`NA
`
`2016-
`
`Unit, Canada
`oo.
`01-01
`12-31
`University
`
`.
`.
`.
`-
`David Jaffray,
`ae SUSIE for Adaptive Interventions
`art 2011-
`
`Slicer-RT
`
`NA
`
`2016-
`
`in Radiation Oncology, Canada
`.
`01-01
`12-31
`Hospital, Toronto
`
`Developing a Robust Segmentation Pipeline
`that Allows for Consistent Trajectory Estimation
`
`HD TRAJECTORY
`
`NA
`
`Eun Young
`
`Kim
`
`2014-
`
`2016-
`
`~
`
`of HD Gene Positive Individuals across Multiple
`
`9
`
`11-01
`
`10-31
`
`Longitudinal MRI Sites
`
`Craniosynostosis
`4R41HD0817128
`Image-Guided Planning System for Skull
`Marius George
`2014-
`2016-
`
`v
`Correction in Children with Craniosynostos
`Linguraru
`09-26
`08-31
`
`Neurobiological Predictors of Huntington's
`2000-
`2016-
`1
`a
`HD_PREDICT
`5RO1NS040068
`Disease (PREDICT-HD)
`Jane Paulsen
`08-01
`08-31
`
`.
`.
`Improving Liver Lesion Biopsy in the CT Suite
`.
`2012-
`2016-
`PET-CT
`guided
`needle
`b
`3R42CA1534882
`.
`:
`K
`R. Cl
`aa
`Through Fusion with PET Images
`evn
`eaTY
`| 09-01
`| 08-01
`
`Set eeREeaeaer
`1R43DE0243348
`Real-Time Hace Guidance for Improved
`Andinet A.
`2014-
`2016-
`
`Orthognathic Surgery
`Enquobahrie
`08-05
`07-31
`
`PediatricRadiologicDecisionSupport
`1R01EB014947@ | Mi2B2 Enabled Pediatric Radiological Decision |
`ny Murphy
`| 2212 | 2016
`°9
`PPO
`Support
`cmereny | 08-01
`| 07-31
`
`Enabling Technologies for MRI-guided Prostate
`2004-
`2016-
`ProstateBRP
`5RO1CA111288
`Interventions
`Clare M. Tempany
`12-01
`07.01
`a
`,
`
`itative
`MRI of P
`10-
`1
`ProstateQIN
`5U01CA1512610 | Cuantitative MRI of
`Prostate Cancer as a
`Perel connesevil
`linea
`oe
`Biomarker and Guide for Treatment
`09-01
`07-01
`
`.
`.
`.
`.
`2013- | 2016-
`HD_GENETICS
`1U01NS082074&
`Imaging and Genetics in Huntington's Disease | Turner Calhoun
`07-01
`06-30
`
`Brain Network Imaging: A Novel Biomarker for
`_
`2013-
`2016-
`1
`738
`HD_PET
`TUOINS083173%9
`| preclinical Huntington's Disease
`Andrew Feigin
`07-01 | 06-30
`
`TubeTK
`41RO1CA170665
`eee Detection by eee Tumor-
`Paul A. Dayton
`2012-
`2016-
`
`induced Vascular Abnormalities
`09-01
`06-01
`
`HD_WHITEMATTER
`1U01NS0832239 | Chatactenzation of White Matter in
`CarkFredrik Westin | 701% | 2015
`~
`Huntington’s Disease using Diffusion MRI
`01-01
`12-31
`
`Gabor Fichtinger,
`2010-
`2015-
`Cancer Care Ontario Research Chair, Canada | PerkLab, Queen's
`-
`01-01
`12-31
`University
`
`Functional Connectivity in Pre-manifest
`2012-
`2015-
`HD_FMRI_DWI
`1U01NS0820838
`Stephen
`Mark
`R.
`—_—
`Huntington’s Disease
`epren
`Mark
`20 | 99-26 | 08-31
`
`Prostate Cancer Assessment via Integrated 3D | Mark L. Palmeri,
`2015
`2015-
`
`Matthew M.
`ARFI Elasticity Imaging and Multi-Parametric
`.
`04-01
`04-01
`MRI
`McCormick
`
`TubeTK
`41R43EB016621 8
`In-Field a! Procedure Support and
`Stephen R.
`2013-
`2015-
`
`
`
`
`
`
`
`Slicer-RT
`
`NA
`
`Duke Prostate Registration
`
`1R41CA1965652
`
`TubeTK
`
`4R41NS0817928
`
`
`
`
`
`Automation®
`
`Multimodality ee eae
`
`System for Traumatic Brain Injury
`
`Aylward
`
`Stephen R.
`
`Aylward
`
`05-01
`
`2013-
`
`01-01
`
`04-01
`
`2014-
`
`12-01
`
`
`
`
`
`Medivis Exhibit 1017
`
`4
`
`

`

`Document title: Documentation/4.x/Acknowledgments - Slicer Wiki
`Capture URL: https://www.slicer.org/wiki/Documentation/4.x/Acknowledgments
`Capture timestamp (UTC): Mon, 15 May 2023 19:08:14 GMT
`
`Page 4 of 4
`
`.
`.
`01-01
`12-31
`University
`
`Functional Connectivity in Pre-manifest
`2012-
`2015-
`HD_FMRI_DWI
`1U01NS082083 Pees
`Stephen Mark Rao
`09-26
`08-31
`a
`
`Prostate Cancer Assessment via Integrated 3D | Mark L. Palmeri,
`2015
`2015-
`
`Duke Prostate Registration
`
`Matthew M.
`ARFI Elasticity Imaging and Multi-Parametric
`.
`04-01
`04-01
`MRI
`McCormick
`
`TubeTK
`41R43EB0166218
`In-Field Ti
`Procedure Support and
`Stephen R.
`2013-
`2015-
`
`1R41CA196565@
`
`Automation ®
`Aylward
`05-01
`04-01
`
`TubeTK
`4R41NS0817928
`Multimodality oes cee Jsevee il
`Stephen R.
`2013-
`2014-
`
`System for Traumatic Brain Injury
`Aylward
`01-01
`12-01
`
`PET-CT guided needle biops
`oR42carszagea | [MProving Liver Lesion Biopsy inthe CT Suite
`| Vi
`Clea
`2012,
`| 2014
`ug
`Psy
`through Fusion with PET Images
`meaty
`| 09-01
`| 08-01
`
`Quantitative Ultrasound Analysis of Vascular
`Stephen R.
`2012-
`2014-
`TubeTK
`1R43CA165621@
`u
`Morphology for Cancer Assessment®
`Aylward
`12-01
`08-01
`
`HD_SUBCORTICAL_ SHAPE
`5U01NS082085e
`oom Ganglia
`oe Analysis and Circuitry in
`SEES Miller,
`2012-
`2014-
`
`
`
`
`
`Baal cen ead
`
`NSF 175988388
`
`
`
`
`
`Huntington's Disease
`Christopher Ross
`09-26
`07-31
`
`HD DWI
`5U54EB0051498
`National Alliance for Medical Image Computing
`Ron
`Kikini
`2010-
`2014-
`-
`(NA-MIC)
`onnwanls
`09-30
`| 06-30
`
`Cognitive and Functional Brain Changes in
`2007-
`2013-
`HD_FMRI
`RO1NS054893@
`Paul
`D_FMR
`SROINS054893%
`| preclinical Huntington's Disease (HD)
`Jane
`Paulsen
`05-15
`| 04-30
`
`PET-CT guided needle biopsy
`1R41CA1534889 _ | MProving Liver Lesion Biopsy inthe CT Suite
`| Vik Cleary
`| 2010- | 2012-
`through Fusion with PET Images
`07-01
`06-01
`
`Collaborative Proposal: ABI Development: An
`
`
`
`
`
`
`
`2021-
`
`08-31
`
`Integrated au for Retrieval, EEE tea
`
`and Analysis of 3D Morphology from Digital
`Biological Collections
`
`ceeeaineer
`
`2018-
`
`09-01
`
`For more information on how this table was created, see this page.
`
`Commercial Partners
`
`= Ebatinca SL@ is an international technology company in Las Palmas, Spain focused on technology for sustainable development.
`
`= lsomics@ uses 3D Slicer in a variety of academic and commercial research partnerships in fields such as planning and guidance for neurosurgery,
`
`quantitative imaging for clinical trials, clinical image informatics.
`
`= Kitware® has a long history of leading and contributing to open source platforms that serve as the foundation of many medical visualization and data
`
`processing applications. Kitware collaborates with customers to meet the demand for the development of proprietary applications and commercial products
`
`based on 3D Slicer. The company, whose focus is on solving the world’s most complex scientific challenges through customized software, has used 3D
`
`Slicer to rapidly prototype solutions in nearly every aspect of medical imaging and is collaborating on the development of commercial pre-clinical products
`
`based on 3D Slicer.
`
`» Pixel Medical builds on and contributes to 3D Slicer to develop innovative medical software from idea to clinical prototype to finished product, and to
`
`support academic research projects. Areas of expertise include radiation therapy, image guided therapy, virtual & augmented reality, hardware & device
`
`support, and machine learning & artificial intelligence.
`
`Listed in alphabetical order.
`
`Slicer Based Products and Product Prototypes
`
`Many companies prefer not to disclose what software components they use in their products, therefore here we can only list a few commercial products that are
`
`based on 3D Slicer:
`
`= Allen Institute for Brain Science: Cell Locator, Desktop application for manually aligning specimens to annotated 3D spaces.
`
`» Radiopharmaceutical Imaging and Dosimetry: RPTDose, a 3D Slicer-based application that streamlines and integrates quantitative imaging analysis and
`
`dose estimation techniques to guide and optimize the use of radiopharmaceutical therapy agents in clinical trials. See more information on Kitware blog®.
`
`= SonoVol® is developing a whole-body ultrasound imaging system for small animals. This start-up company arose from research in the Department of
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`Biomedical Engineering at the University of North Carolina at Chapel Hill. See more information on Kitware blog®.
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`= Xoran Technologies: Image-guided Platform for Deep Brain Stimulation Surgery 1. See more information on Kitware blog®.
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`= Xstrahl@ is developing a Small Animal Radiation Research Platform (SARRP) that uses 3D Slicer as its front-end application for radiation therapy beam
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`placement and system control. See more information on Kitware blog®.
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