Horos offers a suite of advanced visualization tools typically found in expensive commercial workstations:
platform after OsiriX transitioned to a proprietary model. Licensed under the GNU Lesser General Public License (LGPL-3.0), Horos maintains the 64-bit performance necessary for handling large clinical datasets without the image-count limitations found in free "Lite" versions of commercial competitors. Exclusively for Core Functions:
Horos is a free, open-source DICOM (Digital Imaging and Communications in Medicine) viewer designed exclusively for the macOS platform. It allows users to view, manipulate, and analyze medical images from various modalities, including MRI, CT scans, X-rays, ultrasounds, and PET scans. horos software
Veterinary clinics often operate on tight budgets; Horos provides a zero-cost workstation for digital X-rays and ultrasounds.
Enter , a free, open-source medical image viewer that has revolutionized how doctors, researchers, and students interact with DICOM (Digital Imaging and Communications in Medicine) files. Horos offers a suite of advanced visualization tools
is a free, open-source 64-bit medical image viewer specifically designed for . It is a powerful
To help you implement or optimize this software for your specific workflow, please select one of the following options to continue our conversation: It allows users to view, manipulate, and analyze
| Feature | Horos ✅ | OsiriX 🤔 | | :--- | :--- | :--- | | | Open-source, completely free | Closed-source, paid (Lite version is free but limited) | | Primary Use | Education, research, and non-diagnostic use | Clinical diagnostic use (paid version) | | macOS Compatibility | Modern, native 64-bit app | Paid version is 64-bit; Lite version is 32-bit only | | Plugin System | Yes (supports custom and licensed plugins) | No, closed system |
For analyzing imaging data, measuring region-of-interest (ROI) statistics, and exporting high-resolution figures for scientific publications.
: Includes 2D and 3D multi-planar reconstruction, volume rendering, and surface rendering.