Reject Analysis in Digital Radiography and Computed Tomography: A Belgian Imaging Department Case Study

Objective: Reject analysis is usually performed in digital radiography (DR) for quality assurance. Data for computed tomography (CT) rejects remains sparse. The aim of this study is to help provide a straightforward benchmark for reject analysis of both DR and CT. Materials and methods: This retrospective observational study included 107,277 DR and 20,659 CT during 18 months in a tertiary care center. Rejected acquisitions were retrieved by Dose Archiving and Communication System (DACS). The DR and CT reject analysis included reject rates, reasons for rejection and supplementary radiation dose... Mehr ...

Verfasser: Haddad, Laura
Saleme, Hanna
Howarth, Nigel
Tack, Denis
Dokumenttyp: Artikel
Erscheinungsdatum: 2023
Verlag/Hrsg.: Ubiquity Press
Schlagwörter: Dose optimization / Effective dose / Dose-Length-Product / Dose-area-product / Computed Tomography / Digital / Radiography / Protocol optimization
Sprache: Englisch
Permalink: https://search.fid-benelux.de/Record/base-29302742
Datenquelle: BASE; Originalkatalog
Powered By: BASE
Link(s) : https://account.jbsr.be/index.php/up-j-jbsr/article/view/3259

Objective: Reject analysis is usually performed in digital radiography (DR) for quality assurance. Data for computed tomography (CT) rejects remains sparse. The aim of this study is to help provide a straightforward benchmark for reject analysis of both DR and CT. Materials and methods: This retrospective observational study included 107,277 DR and 20,659 CT during 18 months in a tertiary care center. Rejected acquisitions were retrieved by Dose Archiving and Communication System (DACS). The DR and CT reject analysis included reject rates, reasons for rejection and supplementary radiation dose associated with these rejects. Results: 8,904 rejected DR and 514 rejected CT were retrieved. The DR reject rate was 8.3% whereas the CT reject rate was 2.5%. The cumulative effective dose (ED) of DR rejects was 377.3 mSv while the cumulative ED of CT rejects was 1267.4 mSv. The major reason for rejects was positioning for both DR (61%) and CT (44%). Conclusion: This study helps constitute a simple reproducible method to analyze both DR and CT rejects simultaneously. Although CT rejects are less often monitored than DR rejects, the radiation dose associated with CT rejects is much higher, which emphasizes the need to systematically monitor both DR and CT rejects. Investigating the reasons and the most frequently rejected examinations gives an opportunity for improvement of imaging techniques in cooperation with technologists.