An Ultra-Low-Cost Optoacoustic Method for Imaging Specific Biological Structures
Sergio Contador, Álvaro Jiménez, Eduardo Lage, Carla López, Juan Aguirre

TL;DR
A new low-cost imaging method uses sound and light to see specific body structures like tattoos or muscles, potentially improving medical procedures.
Contribution
A novel non-tomographic optoacoustic imaging method using a single transducer and low-cost design is introduced.
Findings
The system can distinguish and recover slab-like biological structures with high axial resolution.
The method shows potential to improve tattoo removal procedures.
The system is compact, user-friendly, and suitable for various medical fields like pediatrics and traumatology.
Abstract
Background/Objectives: Optoacoustic imaging technologies are emerging as promising tools for clinical practice. Several systems have the potential to fill specific niches in the medical imaging landscape thanks to a unique performance based on the combination of rich optical absorption contrast and high ultrasonic penetration-to-resolution ratios. However, current optoacoustic methods rely on tomographic reconstructions, which impose significant complexity on the systems in terms of number and distribution of transducers, acquisition electronics, and general operation. As a result, optoacoustic tomography apparatus are generally expensive and bulky and require intensive training for their operation. Here, we report on an optoacoustic imaging method that uses a single ultrasound transducer and non-tomographic image formation to overcome the drawbacks of classical tomographic methods. The…
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Taxonomy
TopicsPhotoacoustic and Ultrasonic Imaging · Optical Imaging and Spectroscopy Techniques · Digital Holography and Microscopy
