If you are looking for the "foundational" documentation or the official project home: Official Website Horos Project
As open-source software, Horos relies on donations and contributions from developers. Future roadmaps hint at: cloud-server synchronization, AI-based auto-segmentation plugins, and improved DICOM-RT tools.
Horos allows users to generate 3D reconstructions from DICOM images obtained from CT, MRI, and PET scanners. Users can manipulate these 3D images, including 3D volume rendering and 3D surface rendering, to better visualize complex anatomies, such as tumors or vascular patterns. 2. Comprehensive 2D Processing
Horos software is an open-source medical imaging viewer that has become a cornerstone for clinicians and researchers who require sophisticated DICOM (Digital Imaging and Communications in Medicine)
Born as a continuous evolution of OsiriX (one of the most popular DICOM viewers), Horos was created to provide a fully compliant, open-source solution under the LGPL license. For radiologists, veterinarians, researchers, and even medical students, Horos software offers a powerful, NIH-funded alternative to expensive imaging suites.
macOS (supports modern versions, though compatibility with the latest macOS updates should always be verified on the Horos community forums).
: Issued under the GNU Lesser General Public License (LGPL), allowing users to add custom community-developed plugins. purview.net
One of the most important distinctions to understand regarding Horos is its legal and regulatory classification.
The primary advantage of Horos lies in its accessibility. Medical professionals and institutions can download and use the software without licensing fees, democratizing access to high-end imaging tools. Furthermore, its open-source nature fosters an environment where researchers can contribute to its development, ensuring it evolves to meet the needs of the medical community. Conclusion
How does Horos stack up against the competition? Let’s compare.
Horos is a 64-bit medical image viewer that runs exclusively on Apple's Mac operating system. It acts as a fully functional workstation capable of rendering complex medical scans, such as MRIs, CT scans, X-rays, and ultrasounds.