An open source automatic quality assurance (OSAQA) tool for the ACR MRI phantom

Sun, Jidi; Barnes, Michael; Dowling, Jason; Menk, Fred; Stanwell, Peter; Greer, Peter B.

Title: An open source automatic quality assurance (OSAQA) tool for the ACR MRI phantom
Creator: Sun, Jidi; Barnes, Michael; Dowling, Jason; Menk, Fred; Stanwell, Peter; Greer, Peter B.
Relation: Australasian Physical & Engineering Sciences in Medicine Vol. 38, Issue 1, p. 39-46
Publisher Link: http://dx.doi.org/10.1007/s13246-014-0311-8
Publisher: Springer
Resource Type: journal article
Date: 2015
Description: Routine quality assurance (QA) is necessary and essential to ensure MR scanner performance. This includes geometric distortion, slice positioning and thickness accuracy, high contrast spatial resolution, intensity uniformity, ghosting artefact and low contrast object detectability. However, this manual process can be very time consuming. This paper describes the development and validation of an open source tool to automate the MR QA process, which aims to increase physicist efficiency, and improve the consistency of QA results by reducing human error. The OSAQA software was developed in Matlab and the source code is available for download from http://jidisun.wix.com/osaqa-project/. During program execution QA results are logged for immediate review and are also exported to a spreadsheet for long-term machine performance reporting. For the automatic contrast QA test, a user specific contrast evaluation was designed to improve accuracy for individuals on different display monitors. American College of Radiology QA images were acquired over a period of 2 months to compare manual QA and the results from the proposed OSAQA software. OSAQA was found to significantly reduce the QA time from approximately 45 to 2 min. Both the manual and OSAQA results were found to agree with regard to the recommended criteria and the differences were insignificant compared to the criteria. The intensity homogeneity filter is necessary to obtain an image with acceptable quality and at the same time keeps the high contrast spatial resolution within the recommended criterion. The OSAQA tool has been validated on scanners with different field strengths and manufacturers. A number of suggestions have been made to improve both the phantom design and QA protocol in the future.
Subject: quality assurance; ACR MRI phantom; MR QA; magnetic resonance imaging; medical imaging
Identifier: http://hdl.handle.net/1959.13/1332854
Identifier: uon:26953
Identifier: ISSN:1879-5447
Language: eng
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