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First-passage times and normal tissue complication probabilities in the limit of large populations.


ABSTRACT: The time of a stochastic process first passing through a boundary is important to many diverse applications. However, we can rarely compute the analytical distribution of these first-passage times. We develop an approximation to the first and second moments of a general first-passage time problem in the limit of large, but finite, populations using Kramers-Moyal expansion techniques. We demonstrate these results by application to a stochastic birth-death model for a population of cells in order to develop several approximations to the normal tissue complication probability (NTCP): a problem arising in the radiation treatment of cancers. We specifically allow for interaction between cells, via a nonlinear logistic growth model, and our approximations capture the effects of intrinsic noise on NTCP. We consider examples of NTCP in both a simple model of normal cells and in a model of normal and damaged cells. Our analytical approximation of NTCP could help optimise radiotherapy planning, for example by estimating the probability of complication-free tumour under different treatment protocols.

SUBMITTER: Hufton PG 

PROVIDER: S-EPMC7260376 | biostudies-literature | 2020 May

REPOSITORIES: biostudies-literature

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First-passage times and normal tissue complication probabilities in the limit of large populations.

Hufton Peter G PG   Buckingham-Jeffery Elizabeth E   Galla Tobias T  

Scientific reports 20200529 1


The time of a stochastic process first passing through a boundary is important to many diverse applications. However, we can rarely compute the analytical distribution of these first-passage times. We develop an approximation to the first and second moments of a general first-passage time problem in the limit of large, but finite, populations using Kramers-Moyal expansion techniques. We demonstrate these results by application to a stochastic birth-death model for a population of cells in order  ...[more]

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