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OpenSourcePACS

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Your rating: None Average: 4 (20 votes)

OpenSourcePACS is a free, open source image referral, archiving, routing and viewing system. It adds functionality beyond conventional PACS by integrating wet read functions, implemented through DICOM Presentation State and Structured Reporting standards.

In its first release, OpenSourcePACS delivers a complete wet read system, enabling an imaging clinic or hospital to offer its services over the web to physicians within or outside the institution. In future releases, we hope to incorporate more RIS (dictation, transcription, and reporting) functionality.

Orthanc

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Your rating: None Average: 4.1 (30 votes)

Orthanc aims at providing a simple, yet powerful standalone DICOM server. Orthanc can turn any computer running Windows or Linux into a DICOM store (in other words, a mini-PACS system). Its architecture is lightweight, meaning that no complex database administration is required, nor the installation of third-party dependencies.

Open Source Picture Archiving and Communication System (OSPACS)

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Your rating: None Average: 3.6 (19 votes)

Open Source Picture Archiving and Communication System (OSPACS) for storing and displaying medical image files. This is currently been used by the Institute of Women's Health (University College London) to archive ultrasound images from the UK Collaborative Trial of Ovarian Cancer Screening (UKCTOCS) and aims to store more than 100,000 DICOM files.

Pgctn

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Your rating: None Average: 1.4 (5 votes)

"pgctn" is an open source DICOM server/web-based viewing system. It is made by using PHP and javascript. PostgreSQL (also MySQL), CTN (also DCM4CHE), DCMTK and other open source software are used for the back end. The feature is to improve using the AJAX.

Xebra

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Your rating: None Average: 3.2 (13 votes)

Xebra is an open source, cross-platform, thin client and server for web-based distribution and clinical review of medical imaging results. Xebra is based on the latest open industry standards including JPEG2000, WADO and IHE XDS-I.

Xphile

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Your rating: None Average: 3.1 (20 votes)

Xphile is a free, open source radiology teaching library system for Mac OS X. The project is an effort to create an easily accessed local solution for storing and categorising radiology images and descriptions. Xphile requires a minimum of Mac OS X 10.4.

  • Store images exported from your PACS system
  • Drag and drop cases directly from OsiriX
  • Browse by system, pathology and region
  • Make smart and simple albums
  • Create Keynote presentations
  • Query, import to and export from MIRC sites

Ginkgo CADx

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Your rating: None Average: 4 (4 votes)

Ginkgo CADx project started in 2009 with the aim to create an interactive, universal, homogeneous, open-source and cross-platform CADX environment.

Ginkgo is built over a huge amount of advanced technologies providing full abstraction of complex tasks as:

MediSnap

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Your rating: None Average: 1 (4 votes)

Photograph, manage, view, compare, document healing processes and archive digital pictures fully integrated into doctor's practice systems. Take a photo and immediately see how the picture gets archived to your current patient automatically.

pydicom

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Your rating: None Average: 5 (1 vote)

pydicom is a pure python package for working with DICOM files. It was made for inspecting and modifying DICOM data in an easy "pythonic" way. The modifications can be written again to a new file. As a pure python package, it should run anywhere python runs without any other requirements.

pydicom is not a DICOM server, and is not primarily about viewing images. It is designed to let you manipulate data elements in DICOM files with python code.

MITO - Medical Imaging TOolkit

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Your rating: None Average: 4.5 (4 votes)

The "MITO - Medical Imaging TOolkit" project coagulates a number of activities aimed at defining and implementing an open-source, cross-platform software architecture for advanced Medical Imaging. MITO toolkit makes it possible to fetch radiological information and images stored in a PACS according to the standard format DICOM, then provides the final user with basic functionalities such as 2D-3D visualization (VR, SR, MIP), image segmentation and fusion, ROI. Moreover, MITO provides interaction techniques for manipulating 3D medical data in a virtual environment by 2 DOF input devices.

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