1. Computational Biophysical Modeling of the Radiation Bystander Effect in Irradiated Cells
- Author
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Paweł Wysocki and Krzysztof W. Fornalski
- Subjects
bystander effect ,radiation biophysics ,modeling ,Monte Carlo ,Medical physics. Medical radiology. Nuclear medicine ,R895-920 - Abstract
It is well known that ionizing radiation can cause damages to cells that interact with it directly. However, many studies have shown that damages also occur in cells that have not experienced direct interaction. This is due to the so-called bystander effect, which is observed when the irradiated cell sends signals that can damage neighboring cells. Due to the complexity of this effect, it is not easy to strictly describe it biophysically, and thus it is also difficult to simulate. This article reviews various approaches to modeling and simulating the bystander effect from the point of view of radiation biophysics. In particular, the last model presented within this article is part of a larger project of modeling the response of a group of cells to ionizing radiation using Monte Carlo methods. The new approach presented here is based on the probability tree, the Poisson distribution of signals and the saturated dose-related probability distribution of the bystander effect’s appearance, which makes the model very broad and universal.
- Published
- 2021
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