A contemporary systematic review on deterministic numerical simulations of light propagation in head tissues
Filipa Fernandes, Nuno Sousa, Filipe S. Silva, Óscar Carvalho, Susana O. Catarino

TL;DR
This paper reviews deterministic simulations of light propagation in head tissues as a potential alternative to Monte Carlo methods for biomedical applications.
Contribution
The study provides a systematic review of recent deterministic numerical simulations for light propagation in head tissues.
Findings
Most studies used 3D simulations with FEM to solve the Diffusion Equation for improved imaging techniques.
Deterministic simulations are shown to be efficient and relatively accurate alternatives to Monte Carlo methods.
Challenges include tissue optical property variations and oversimplified geometric models.
Abstract
Understanding how light interacts with the head’s tissues is relevant for several biomedical applications. Since in vivo studies involve ethical considerations, numerical simulations have become a recognised alternative method for studying light propagation in biological tissue. Although Monte Carlo methods are the gold standard for these studies, deterministic simulations are becoming more common due to their lower computational cost. Thus, this document reviews articles published after 2010, containing deterministic numerical simulations of light propagation (visible to infrared wavelengths) in human head tissues, to define how these methods are implemented and whether they are a viable alternative to the stochastic Monte Carlo algorithms. Most of the selected articles included a 3D simulation, using Finite Element Methods (FEM) to solve the Diffusion Equation (DE), with Robin…
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Taxonomy
TopicsOptical Imaging and Spectroscopy Techniques · Photodynamic Therapy Research Studies · Laser Applications in Dentistry and Medicine
