RadioModels is a suite of quantitative mathematical models that provides valuable information to users involved in dosimetry, dose calculations and quality assurance in radiation therapy. It incorporates the most advanced modeling techniques, with high-performance algorithms to deliver the best in end-use modeling. The project is currently developed and maintained by Javier Villafruela, MD.
Radiogenic Cancer Risk: Estimate the excessive risk caused by the radiation of diagnostic medical imaging (including CT scans, nuclear scans, plain films, fluoroscopy), interventional procedures and radiation therapy.
Dose Fractionation: The Linear-Quadratic-Linear radiation dose response model is often used for calculating isoeffect doses for different fractionation/protraction schemes, including hypofractionated stereotactic radiotherapy.
Normal Tissue Complication Probability (NTCP): Combining the Lyman-Kutcher-Burman NTCP model with radiosensitivity parameters to characterize the volume dependent probability of inducing radiation injuries.
Mathematical Models: - Biological Effects of Ionizing Radiation (BEIR VII Phase 2) Models. - Linear-Quadratic-Linear (LQL) Cell Survival Model with Corrections for Damage Repair and Repopulation Effects. - NTCP in Response to Therapeutic Irradiation (Lyman-Kutcher-Burman Model).
Language Support: English
Important Consumer Information: The Software has been designed for research purposes only and has not been reviewed or approved by the Food and Drug Administration or by any other agency. YOU ACKNOWLEDGE AND AGREE THAT CLINICAL APPLICATIONS ARE NEITHER RECOMMENDED NOR ADVISED. All calculations, measurements and graphs provided by this software are intended only for scientific research. Any other use is entirely at the discretion and risk of the user.
Copyright 2014-2015 Javier Villafruela, MD. All rights reserved.
What is new in this release:
This release includes bug fixes, improved font rendering, increased stability and performance.