Radiographic texture reproducibility: The impact of different materials, their arrangement, and focal spot size

Background: Feature reproducibility is a critical issue in quantitative radiomic studies. The aim of this study is to assess how radiographic radiomic textures behave against changes in phantom materials, their arrangements, and focal spot size. Method: A phantom with detachable parts was made using...

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Bibliographic Details
Main Authors: Younes Qasempour, Amirsalar Mohammadi, Mostafa Rezaei, Parisa Pouryazadanpanah, Fatemeh Ziaddini, Alma Borbori, Isaac Shiri, Ghasem Hajianfar, Azam Janati, Sareh Ghasemirad, Hamid Abdollahi
Format: Article
Language:English
Published: Wolters Kluwer Medknow Publications 2020-01-01
Series:Journal of Medical Signals and Sensors
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Online Access:http://www.jmssjournal.net/article.asp?issn=2228-7477;year=2020;volume=10;issue=4;spage=275;epage=285;aulast=Qasempour
Description
Summary:Background: Feature reproducibility is a critical issue in quantitative radiomic studies. The aim of this study is to assess how radiographic radiomic textures behave against changes in phantom materials, their arrangements, and focal spot size. Method: A phantom with detachable parts was made using wood, sponge, Plexiglas, and rubber. Each material had 1 cm thickness and was imaged for consecutive time. The phantom also was imaged by change in the arrangement of its materials. Imaging was done with two focal spot sizes including 0.6 and 1.2 mm. All images were acquired with a digital radiography machine. Several texture features were extracted from the same size region of interest in all images. To assess reproducibility, coefficient of variation (COV), intraclass correlation coefficient (ICC), and Bland–Altman tests were used. Results: Results show that 59%, 50%, and 4.5% of all features are most reproducible (COV ≤5%) against change in focal spot size, material arrangements, and phantom's materials, respectively. Results on Bland–Altman analysis showed that there is just a nonreproducible feature against change in the focal spot size. On the ICC results, we observed that the ICCs for more features are >0.90 and there were few features with ICC lower than 0.90. Conclusion: We showed that radiomic textures are vulnerable against changes in materials, arrangement, and different focal spot sizes. These results suggest that a careful analysis of the effects of these parameters is essential before any radiomic clinical application.
ISSN:2228-7477