In biomedical imaging, it is desirable that custom-made accessories for restraint, anesthesia, and monitoring can be easily cleaned and not interfere with the imaging quality or analyses. With the rise of 3D printing as a form of rapid prototyping or manufacturing for imaging tools and accessories, it is important to understand which printable materials are durable and not likely to interfere with imaging applications. Here, 15 3D printable materials were evaluated for radiodensity, optical properties, simulated wear, and capacity for repeated cleaning and disinfection. Materials that were durable, easily cleaned, and not expected to interfere with CT, PET, or optical imaging applications were identified.
Keywords: 3D printing; Biomedical imaging; material science; polymer characterization; prototyping.
A guide for selecting 3D printed materials for custom research tools through characterization of their merits and limitations in biomedical imaging.
© 2023 The Author(s). Published by National Institute for Materials Science in partnership with Taylor & Francis Group.