Minimizing Patient Radiation Risk While Maintaining Image Quality
VirtualDose™CT is sophisticated radiation dose simulation software for radiologists, radiological technologists, medical physicists, regulators, manufacturers and researchers. Thanks to the use of a well-tested family of anatomically correct phantoms, revolutionary GPU-based Monte Carlo simulation, and innovative SaaS programming techniques, it permits radiation health professionals to obtain highly accurate images with much greater patient safety.
VirtualDoseCT enables users to assess organ doses, in addition to CTDI and DLP data provided by the CT scanner. It is able to differentiate for individuals outside of the “average” population body habitus. It is ready for use with the latest CT scanners and with recent ICRP-60 and ICRP-103 recommendations on effective dose.
And we use the world’s most advanced patient models, including:
- Adults at various body weights and heights
- Overweight and obese adults
- Children at different ages and body sizes
- Pregnant female at three gestational stages
VirtualDoseCT delivers:
- The world’s largest library of patient phantoms
- Organ dose data from validated CT scanners for each patient
- An intuitive, easy-to-use graphical user interface
- Web-based solution for easy access
- Breakthrough accuracy and speed using the revolutionary GPU technology
Easy to Use, Web-Based. Our easy-to-use radiation dosimetry tool is accessed via the Web. There is no software to install or maintain locally. This way, you are always accessing the most up-to-date version of the software tools. The VirtualDose system can also be accessed using an easy-to-configure API permitting batch processing and integration with local patient databases. In addition, VirtualDose powers the organ dose functionality of several commercial dose monitoring systems world-wide.
Researched and Respected. VirtualDoseCT is the product of many years of research funded by the National Institutes of Health and other leading government agencies. Much of the technology behind VirtualDose is available in the open, peer-reviewed literature.
