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      Review of consensus test methods in medical imaging and current practices in photoacoustic image quality assessment

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          There is no author summary for this article yet. Authors can add summaries to their articles on ScienceOpen to make them more accessible to a non-specialist audience.

          Abstract.

          Significance: Photoacoustic imaging (PAI) is a powerful emerging technology with broad clinical applications, but consensus test methods are needed to standardize performance evaluation and accelerate translation.

          Aim: To review consensus image quality test methods for mature imaging modalities [ultrasound, magnetic resonance imaging (MRI), x-ray CT, and x-ray mammography], identify best practices in phantom design and testing procedures, and compare against current practices in PAI phantom testing.

          Approach: We reviewed scientific papers, international standards, clinical accreditation guidelines, and professional society recommendations describing medical image quality test methods. Observations are organized by image quality characteristics (IQCs), including spatial resolution, geometric accuracy, imaging depth, uniformity, sensitivity, low-contrast detectability, and artifacts.

          Results: Consensus documents typically prescribed phantom geometry and material property requirements, as well as specific data acquisition and analysis protocols to optimize test consistency and reproducibility. While these documents considered a wide array of IQCs, reported PAI phantom testing focused heavily on in-plane resolution, depth of visualization, and sensitivity. Understudied IQCs that merit further consideration include out-of-plane resolution, geometric accuracy, uniformity, low-contrast detectability, and co-registration accuracy.

          Conclusions: Available medical image quality standards provide a blueprint for establishing consensus best practices for photoacoustic image quality assessment and thus hastening PAI technology advancement, translation, and clinical adoption.

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          Photoacoustic tomography: in vivo imaging from organelles to organs.

          Lihong Wang, Song Hu (2012)
          Photoacoustic tomography (PAT) can create multiscale multicontrast images of living biological structures ranging from organelles to organs. This emerging technology overcomes the high degree of scattering of optical photons in biological tissue by making use of the photoacoustic effect. Light absorption by molecules creates a thermally induced pressure jump that launches ultrasonic waves, which are received by acoustic detectors to form images. Different implementations of PAT allow the spatial resolution to be scaled with the desired imaging depth in tissue while a high depth-to-resolution ratio is maintained. As a rule of thumb, the achievable spatial resolution is on the order of 1/200 of the desired imaging depth, which can reach up to 7 centimeters. PAT provides anatomical, functional, metabolic, molecular, and genetic contrasts of vasculature, hemodynamics, oxygen metabolism, biomarkers, and gene expression. We review the state of the art of PAT for both biological and clinical studies and discuss future prospects.
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            Consensus standards for acquisition, measurement, and reporting of intravascular optical coherence tomography studies: a report from the International Working Group for Intravascular Optical Coherence Tomography Standardization and Validation.

            Guillermo Tearney, Evelyn Regar, Takashi Akasaka (2012)
            The purpose of this document is to make the output of the International Working Group for Intravascular Optical Coherence Tomography (IWG-IVOCT) Standardization and Validation available to medical and scientific communities, through a peer-reviewed publication, in the interest of improving the diagnosis and treatment of patients with atherosclerosis, including coronary artery disease. Intravascular optical coherence tomography (IVOCT) is a catheter-based modality that acquires images at a resolution of ~10 μm, enabling visualization of blood vessel wall microstructure in vivo at an unprecedented level of detail. IVOCT devices are now commercially available worldwide, there is an active user base, and the interest in using this technology is growing. Incorporation of IVOCT in research and daily clinical practice can be facilitated by the development of uniform terminology and consensus-based standards on use of the technology, interpretation of the images, and reporting of IVOCT results. The IWG-IVOCT, comprising more than 260 academic and industry members from Asia, Europe, and the United States, formed in 2008 and convened on the topic of IVOCT standardization through a series of 9 national and international meetings. Knowledge and recommendations from this group on key areas within the IVOCT field were assembled to generate this consensus document, authored by the Writing Committee, composed of academicians who have participated in meetings and/or writing of the text. This document may be broadly used as a standard reference regarding the current state of the IVOCT imaging modality, intended for researchers and clinicians who use IVOCT and analyze IVOCT data. Copyright © 2012 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.
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              A review of clinical photoacoustic imaging: Current and future trends

              Amalina Attia, Ghayathri Balasundaram, Mohesh Moothanchery (2019)
              Photoacoustic imaging (or optoacoustic imaging) is an upcoming biomedical imaging modality availing the benefits of optical resolution and acoustic depth of penetration. With its capacity to offer structural, functional, molecular and kinetic information making use of either endogenous contrast agents like hemoglobin, lipid, melanin and water or a variety of exogenous contrast agents or both, PAI has demonstrated promising potential in a wide range of preclinical and clinical applications. This review provides an overview of the rapidly expanding clinical applications of photoacoustic imaging including breast imaging, dermatologic imaging, vascular imaging, carotid artery imaging, musculoskeletal imaging, gastrointestinal imaging and adipose tissue imaging and the future directives utilizing different configurations of photoacoustic imaging. Particular emphasis is placed on investigations performed on human or human specimens.
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                Author and article information

                Contributors
                Jorge Palma-Chavez
                T. Joshua Pfefer:
                ORCID: https://orcid.org/0000-0002-9063-8387
                Anant Agrawal:
                ORCID: https://orcid.org/0000-0001-8573-0042
                Jesse V. Jokerst
                William C. Vogt
                Journal
                Journal ID (nlm-ta): J Biomed Opt
                Journal ID (iso-abbrev): J Biomed Opt
                Journal ID (coden): JBOPFO
                Journal ID (publisher-id): JBO
                Title: Journal of Biomedical Optics
                Publisher: Society of Photo-Optical Instrumentation Engineers
                ISSN (Print): 1083-3668
                ISSN (Electronic): 1560-2281
                Publication date (Electronic): 11 September 2021
                Publication date (Print): September 2021
                Publication date PMC-release: 11 September 2021
                Volume: 26
                Issue: 9
                Electronic Location Identifier: 090901
                Affiliations
                [a ]University of California San Diego , Department of NanoEngineering, La Jolla, California, United States
                [b ]Center for Devices and Radiological Health , U.S. Food and Drug Administration, Silver Spring, Maryland, United States
                [c ]University of California San Diego , Department of Radiology, La Jolla, California, United States
                [d ]University of California San Diego , Materials Science and Engineering Program, La Jolla, California, United States
                Author notes
                [* ]Address all correspondence to William C. Vogt, william.vogt@ 123456fda.hhs.gov
                [†]

                Equal contribution

                Author information
                https://orcid.org/0000-0002-9063-8387
                https://orcid.org/0000-0001-8573-0042
                Article
                Publisher-manuscript ID: JBO-210176VSSR Publisher ID: 210176VSSR
                DOI: 10.1117/1.JBO.26.9.090901
                PMC ID: 8434148
                PubMed ID: 34510850
                SO-VID: 6c7348e9-cf1f-4d4f-ba0b-89eaa43ec545
                Copyright © © 2021 The Authors
                License:

                Published by SPIE under a Creative Commons Attribution 4.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.

                History
                Date received : 1 June 2021
                Date accepted : 17 August 2021
                Page count
                Figures: 14, Tables: 1, References: 176, Pages: 27
                Funding
                Funded by: NSF/FDA Scholar-in-Residence program
                Award ID: 1842387
                Award ID: 1937674
                Categories
                Subject: Review Papers
                Subject: Paper
                Custom metadata
                running-head Palma-Chavez et al.: Review of consensus test methods in medical imaging and current practices…

                ScienceOpen disciplines: Biomedical engineering
                Keywords: phantoms,standardization,performance testing,photoacoustics,ultrasound,magnetic resonance imaging,x-ray computed tomography,quality assurance
                Data availability:
                ScienceOpen disciplines: Biomedical engineering
                Keywords: phantoms, standardization, performance testing, photoacoustics, ultrasound, magnetic resonance imaging, x-ray computed tomography, quality assurance

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