Statistical physics of medical diagnostics: Study of a probabilistic model

Physical Review. E
Alireza Mashaghi, Abolfazl Ramezanpour

Abstract

We study a diagnostic strategy which is based on the anticipation of the diagnostic process by simulation of the dynamical process starting from the initial findings. We show that such a strategy could result in more accurate diagnoses compared to a strategy that is solely based on the direct implications of the initial observations. We demonstrate this by employing the mean-field approximation of statistical physics to compute the posterior disease probabilities for a given subset of observed signs (symptoms) in a probabilistic model of signs and diseases. A Monte Carlo optimization algorithm is then used to maximize an objective function of the sequence of observations, which favors the more decisive observations resulting in more polarized disease probabilities. We see how the observed signs change the nature of the macroscopic (Gibbs) states of the sign and disease probability distributions. The structure of these macroscopic states in the configuration space of the variables affects the quality of any approximate inference algorithm (so the diagnostic performance) which tries to estimate the sign-disease marginal probabilities. In particular, we find that the simulation (or extrapolation) of the diagnostic process is helpf...Continue Reading

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Feb 7, 2018·Scientific Reports·Abolfazl Ramezanpour, Alireza Mashaghi

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Citations

Jun 5, 2020·PLoS Computational Biology·Abolfazl Ramezanpour, Alireza Mashaghi
Nov 25, 2020·Diagnostics·Abolfazl RamezanpourAlireza Mashaghi

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