Review of imaging test phantoms

• Published in: Journal of biomedical optics Vol. 28; no. 8; p. 80903
• Main Authors: Christie, Liam B., Zheng, Wenhan, Johnson, William, Marecki, Eric K., Heidrich, James, Xia, Jun, Oh, Kwang W.
• Format: Journal Article
• Language: English
• Published: Bellingham S P I E - International Society for 01.08.2023; Society of Photo-Optical Instrumentation Engineers
• Subjects: Acoustics; Carbon fibers; Categories; Commercialization; Drug delivery; Human body; Imaging techniques; Insulin; Lasers; Magnetic resonance imaging; Manufacturing; Material properties; Medical imaging; Microscopy; Neuroimaging; Photoacoustic effect; Review Papers; Structural design; Structural engineering; Tomography; Ultrasonic imaging
• ISSN: 1083-3668; 1560-2281
• DOI: 10.1117/1.JBO.28.8.080903

SignificancePhotoacoustic tomography has emerged as a prominent medical imaging technique that leverages its hybrid nature to provide deep penetration, high resolution, and exceptional optical contrast with notable applications in early cancer detection, functional brain imaging, drug delivery monitoring, and guiding interventional procedures. Test phantoms are pivotal in accelerating technology development and commercialization, specifically in photoacoustic (PA) imaging, and can be optimized to achieve significant advancements in PA imaging capabilities.AimThe analysis of material properties, structural characteristics, and manufacturing methodologies of test phantoms from existing imaging technologies provides valuable insights into their applicability to PA imaging. This investigation enables a deeper understanding of how phantoms can be effectively employed in the context of PA imaging.ApproachThree primary categories of test phantoms (simple, intermediate, and advanced) have been developed to differentiate complexity and manufacturing requirements. In addition, four sub-categories (tube/channel, block, test target, and naturally occurring phantoms) have been identified to encompass the structural variations within these categories, resulting in a comprehensive classification system for test phantoms.ResultsBased on a thorough examination of literature and studies on phantoms in various imaging modalities, proposals have been put forth for the development of multiple PA-capable phantoms, encompassing considerations related to the material composition, structural design, and specific applications within each sub-category.ConclusionsThe advancement of novel and sophisticated test phantoms within each sub-category is poised to foster substantial progress in both the commercialization and development of PA imaging. Moreover, the continued refinement of test phantoms will enable the exploration of new applications and use cases for PA imaging.