Summary
Oncology
Pakiety Debian Med do onkologii
Jest to metapakiet instalujący narzędzia przydatne do radioterapii
onkologicznej.
Description
For a better overview of the project's availability as a Debian package, each head row has a color code according to this scheme:
If you discover a project which looks like a good candidate for Debian Med
to you, or if you have prepared an unofficial Debian package, please do not hesitate to
send a description of that project to the Debian Med mailing list
Links to other tasks
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Debian Med Oncology packages
Official Debian packages with high relevance
orthanc-wsi
Whole-slide imaging support for Orthanc (digital pathology)
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Versions of package orthanc-wsi |
Release | Version | Architectures |
bullseye | 1.0-3 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bookworm | 1.1-4 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
trixie | 2.1+dfsg-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
sid | 2.1+dfsg-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
buster | 0.6-2 | amd64,arm64,armhf,i386 |
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License: DFSG free
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Orthanc-WSI brings support of whole-slide imaging for digital
pathology into Orthanc, the lightweight, RESTful Vendor Neutral
Archive for medical imaging.
This package contains two command-line tools to convert whole-slide
images to and from DICOM. Support for proprietary file formats is
available through OpenSlide. The package also contains an Orthanc
plugin to display such DICOM images by any standard Web browser. The
implementation follows DICOM Supplement 145.
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simrisc
simulation model for breast/lung cancer risk
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Versions of package simrisc |
Release | Version | Architectures |
bullseye | 14.02.00-1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bookworm | 15.00.00-1 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
trixie | 16.02.00-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
sid | 16.02.00-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64,s390x |
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License: DFSG free
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SiMRiSC is a simulation model for breast/lung cancer screening.
It was originally designed by Marcel Greuter around 2010,
and then updated by Chris de Jonge in 2015. This current
version is a complete rewrite of the original sources by
Frank B. Brokken.
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Official Debian packages with lower relevance
python3-dicompylercore
core radiation therapy modules for DICOM / DICOM RT used by dicompyler
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Versions of package python3-dicompylercore |
Release | Version | Architectures |
bullseye | 0.5.5-2 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
bookworm | 0.5.5-5 | amd64,arm64,armel,armhf,i386,mips64el,mipsel,ppc64el,s390x |
trixie | 0.5.6-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64 |
sid | 0.5.6-1 | amd64,arm64,armel,armhf,i386,mips64el,ppc64el,riscv64 |
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License: DFSG free
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This package provides a Python3 library of core radiation therapy
modules for DICOM / DICOM RT used by dicompyler. It includes:
- dicomparser: parse DICOM objects in an easy-to-use manner
- dvh: Pythonic access to dose volume histogram (DVH) data
- dvhcalc: Independent DVH calculation using DICOM RT Dose & RT Structure Set
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Packaging has started and developers might try the packaging code in VCS
uw-prism
software tools for radiation therapy planning
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Versions of package uw-prism |
Release | Version | Architectures |
VCS | 1.5-2-1 | all |
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License: LLGPL
Debian package not available
Version: 1.5-2-1
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The Prism project is a long term project to build software tools for
radiation therapy planning, including artificial intelligence tools as
well as manual simulation systems.
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No known packages available
planunc
tools for radiotherapy treatment planning
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License: needs to be clarified, registration required
Debian package not available
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PLanUNC (PLUNC) is a portable, adaptable, and extensible set of
software tools for radiotherapy treatment planning (RTP) that has been
under active development in the Department of Radiation Oncology at the
University of North Carolina (UNC) for approximately 20 years. In 1992,
development work branched into separate paths at UNC (PLanUNC) and
Sherouse Systems, Inc. (GRATISTM). The current UNC tools encompass the
full range of RTP functions including image importing and processing,
virtual simulation, dose calculation, plan evaluation, and planning for
intensity modulated radiotherapy. PLanUNC source code and related
software are licensed without fee to qualified facilities to support
research involving new methods for planning and delivering radiation
therapy, and to support RTP training for dosimetrists, physicists,
radiation therapists, and radiation oncology residents.
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