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FrameWork for Software Production Line (FW4SPL)

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Your rating: None Average: 3 (3 votes)

FW4SPL is a component-oriented architecture with the notion of role-based programming. FW4SPL consists of a set of cross-platform C++ libraries. For now, FW4SPL focuses on the problem of medical images processing and visualization.

OMERO

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OMERO is client-server software for visualisation, management and analysis of biological microscope images.

From the microscope to publication, OMERO handles all your images in a secure central repository. You can view, organise, analyse and share your data from anywhere you have internet access. Work with your images from a desktop app (Windows, Mac or Linux), from the web or from 3rd party software.

FreeDiams

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Your rating: None Average: 4.8 (20 votes)

FreeDiams prescriber is the result of FreeMedForms prescriber plugins built into a standalone application. FreeDiams is a multi-platform (MacOS, Linux, FreeBSD, Windows), free and open source.

It is developed by medical doctors and is intended for use by these same professionals. It can be used alone to prescribe and / or test drug interactions within a prescription. It can be linked to any application thanks to its command line parameters. Available drugs databases : USA (FDA), Canadian (HCDPD), French (AFSSAPS), South African (SAEPI).

Xphile

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Your rating: None Average: 3.1 (21 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

Voreen

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Your rating: None Average: 3.3 (6 votes)

Voreen is an open source rapid application development framework for the interactive visualization and analysis of multi-modal volumetric data sets. It provides GPU-based volume rendering and data analysis techniques and offers high flexibility when developing new analysis workflows in collaboration with domain experts. The Voreen framework consists of a multi-platform C++ library, which can be easily integrated into existing applications, and a Qt-based stand-alone application.

OpenIGTLink

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Your rating: None Average: 4 (4 votes)

The goal of OpenIGTLink is to provide a standardized mechanism to connect software/hardware through the network for image-guided therapy (IGT) applications. The features of OpenIGTLink include:

CollaboRhythm

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Your rating: None Average: 2 (3 votes)

CollaboRhythm is a technology platform that enables a new paradigm of healthcare delivery; one where patients are empowered to become active participants and where doctors and other health professionals are transformed into real-time coaches. We believe that this radical shift in thinking is necessary to dramatically reduce healthcare costs, increase quality, and improve health outcomes.

openCDMS

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Your rating: None Average: 2.8 (18 votes)

The openCDMS project is a community effort to develop a robust, commercial-grade, full-featured and open source clinical data management system for studies and trials. The philosophy behind openCDMS is to enable clinical researchers to manage the full life cycle of their clinical research project, from design through to archiving, without any specialist knowledge of databases or IT systems.

openCDMS provides purpose built visual tools the enable clinical researchers to design, develop, implement, and manage large scale, multi-centre studies and trials quickly and easily.

SimThyr

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Your rating: None Average: 4.8 (13 votes)

SimThyr is a simulation program for thyroid homeostasis. It is based on a published nonlinear parametric isomorphic model of thyrotropic feedback control. Applications of SimThyr cover generation of hypotheses for biomedical research, education and presentation. Binaries and sourcecode are available for Mac OS, Mac OS X, Windows, Linux and other Unix derivatives.

SPINA Thyr

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SPINA (structure parameter inference approach) is a method for calculating constant structure parameters of endocrine feedback control systems in vivo from hormone levels obtained from serum or plasma.

A first successful implementation applies to evaluation of thyroid function. It allows for calculating the thyroid's maximum secretory capacity (GT or SPINA-GT) and the sum activity of peripheral 5'-deiodinases (GD or SPINA-GD) from levels of TSH, (F)T4 and (F)T3 that have been determined once only (SPINA Thyr).