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Variability and Standardization of Quantitative Imaging

Akifumi Hagiwara, Shohei Fujita, Yoshiharu Ohno, Shigeki Aoki

2020Investigative Radiology182 citationsDOIOpen Access PDF

Abstract

Radiological images have been assessed qualitatively in most clinical settings by the expert eyes of radiologists and other clinicians. On the other hand, quantification of radiological images has the potential to detect early disease that may be difficult to detect with human eyes, complement or replace biopsy, and provide clear differentiation of disease stage. Further, objective assessment by quantification is a prerequisite of personalized/precision medicine. This review article aims to summarize and discuss how the variability of quantitative values derived from radiological images are induced by a number of factors and how these variabilities are mitigated and standardization of the quantitative values are achieved. We discuss the variabilities of specific biomarkers derived from magnetic resonance imaging and computed tomography, and focus on diffusion-weighted imaging, relaxometry, lung density evaluation, and computer-aided computed tomography volumetry. We also review the sources of variability and current efforts of standardization of the rapidly evolving techniques, which include radiomics and artificial intelligence.

Topics & Concepts

StandardizationMagnetic resonance imagingMedical physicsRadiological weaponMedicineMedical imagingRadiologyComputer scienceOperating systemRadiomics and Machine Learning in Medical ImagingMRI in cancer diagnosisMedical Imaging Techniques and Applications