One purpose of this study was to generate a dynamic model of fractionated radiotherapy that incorporated the "time factor" to simulate the time-dose-fractionation effect on both cancerous and normal tissues. This model was used to determine the optimal fractionated radiotherapy regimen. This dynamic simulation model will aid students and/or residents in understanding how the response to radiotherapy progresses not only in tumors but also in normal tissues. It is my pleasure to provide this HP as a self-study guide to generate interest in radiation oncology.
Topics and Information
Measurement of the number of tumor cells in unit volume, local control by radiation therapy to solid tumor "Total Cell Kill" added is necessary.
Three-dimensional simulation of the time-dose-fractionation relationship in a non-uniform radiosensitive tumor,Updated Local Control Rate of non-uniform Radiosensitive Tumors.
A new page – Local Control Rate of non-uniform Radiosensitive Tumors - was added.
Appendix updated based on acquired respiratory data.
Appendix ; Update of dynamic simulation of respiratory synchronized radiotherapy, and develop dynamic simulation of chasing of respiratory movement.
The English home page was released.
Appendix:Dynamic Simulation of Respiratory Synchronized Radiotherapy
The homepage was transferred and newly displayed.
Figure 9 showing a virtual simulation changed the calculation technique and was substituted into a high-precision simulation.
The homepage was displayed.
The movie is published on this site in QuickTime format. For viewing it, you require the QuickTime player. Mac and Windows versions can be downloaded for free from Apple.