Significance: Skin pigmentation is a known source of bias in optical and photoacoustic imaging. Although these effects are well investigated for two-dimensional photoacoustic imaging systems, their impact on three-dimensional (3D) photoacoustic tomography remains largely unexplored. Aim: We aim to generate insights into the impact of skin pigmentation on the performance of 3D breast photoacoustic tomography using phantoms. Approach: We developed hemispherical breast phantoms compatible with a multi-wavelength photoacoustic–ultrasound tomography system. The phantoms incorporate a thin skin-mimicking layer over an adipose-mimicking bulk material. Four phantoms with identical geometry and increasing pigmentation levels were fabricated. Embedded wall-less channels filled with sulfate solutions of varying concentrations enabled depth- and spectral-dependent analysis. Results: Increasing pigmentation led to stronger skin photoacoustic signals, reduced signal-to-background ratios at depth, and increased reflection-related background artifacts. Spectral measurements revealed pigmentation-dependent attenuation and reduced chromophore contrast in the wavelength range relevant for oxygen saturation estimation. Conclusions: Three-dimensional photoacoustic tomography is susceptible to pigmentation-induced bias affecting imaging depth and spectral analysis. The presented phantom provides a validated platform for developing strategies to improve the reliability and inclusivity of photoacoustic tomography imaging across skin tones.

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doi.org/10.1117/1.BIOS.3.2.022510
Biophotonics Discovery
creativecommons.org/licenses/by/4.0/
Centrum Wiskunde & Informatica, Amsterdam (CWI), The Netherlands

Bulthuis, R., Lubbers, N. S., Lucka, F., Steenbergen, W., Bosschaart, N.& Manohar, S. (2026). Impact of skin pigmentation on photoacoustic tomography: A phantom study. Biophotonics Discovery, 3(2), 022510:1–022510:20.https://doi.org/10.1117/1.BIOS.3.2.022510