Vale, W; Bamber, J; Koruk, H; Carneiro, G; Florescu, L (2025) Reconstructing the Tissue Absorption Coefficient in Photoacoustic Tomography with Large Scale Simulations: Numerical Experiments with Digimouse. In: 2025 IEEE International Ultrasonics Symposium (IUS), 15-18 September 2025, Utrecht, Netherlands.

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Abstract

Quantitative photoacoustic imaging aims to determine the spatial distribution of the tissue’s optical absorption coefficient from photoacoustic (PA) signals measured at its surface. We combine large scale optical and acoustic modelling to estimate the optical absorption coefficient from simulated PA signal measurements using a band-limited transducer array that provides limited angular coverage. We validated our approach using a digital mouse atlas, and a PA imaging forward model which is based on the MSOT in-Vision 256 system (iThera GmbH, Munich). We were able to recover the absorption coefficient when it was assumed that the scattering coefficient was known exactly, and that the digital phantom was an extrusion out of the 2D imaging plane. We then investigated how the performance was affected when these two assumptions were relaxed, and when substantial negative pressure artifacts were present in the reconstructed images.

Item Type:	Conference or Workshop Item (Paper)
Keywords:	Quantitative photoacoustic imaging, Digimouse,Monte Carlo eXtreme (MCX), k-Wave
Subjects:	Acoustics > Ultrasound
Divisions:	Medical, Marine & Nuclear
Publisher:	IEEE
Identification number/DOI:	10.1109/IUS62464.2025.11201373
Last Modified:	18 May 2026 14:54
URI:	https://eprintspublications.npl.co.uk/id/eprint/10407