Simulator of radiation biological effects in tumor in order to determinate the tumor control probability

• Published in: Informatics in medicine unlocked Vol. 16; p. 100217
• Main Authors: Frometa-Castillo, Terman, Pyakuryal, Anil, Piseaux-Aillon, Raul
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 2019; Elsevier
• Subjects: Probability; Simulation; Stochastic process; TCP; TCP; Probability; Simulation; Stochastic process
• ISSN: 2352-9148; 2352-9148
• DOI: 10.1016/j.imu.2019.100217

Currently, tumor control probability (TCP) can be determined through experiments and observations, which enable deriving its values and construction of phenomenological and mechanistic TCP models. However, there are few experiments and observations extent; for this reason the development of virtual simulations is an interesting option for the determination of TCP. Probabilistic descriptions were made of three kinds of cells, and the effects of radiation interaction with each tumor cell was investigated. For a homogeneously irradiated tumor with a dose d, the “TumorRBEf” simulator determines the TCP using simulations of a fractioned treatment, based on the tumor cell ratio sensitivities (cell kill and cell sublethal damage), tumor volume, cell density, and number of fractions. In this study, a simulator was developed to estimate the TCP using a new methodology. The TCP was calculated from a fractioned treatment as a ratio of simulations, with 100% of killed cells and total of simulations. This technique may be useful for determining optimal treatment schedules, and as a teaching tool. Despite that the first version of this simulator neglected tumor cellular processes, such as cell repair and cell repopulation, the current version provides hypothesis-generating results. The simulator has whole probabilistic foundations, using probabilities, such as the probability of meeting a killed cell, of killing an undamaged cell, and of killing a sublethal damage cell.