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    <title>OAR@UM Collection:</title>
    <link>https://www.um.edu.mt/library/oar/handle/123456789/67792</link>
    <description />
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        <rdf:li rdf:resource="https://www.um.edu.mt/library/oar/handle/123456789/68443" />
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    <dc:date>2026-07-16T22:35:49Z</dc:date>
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  <item rdf:about="https://www.um.edu.mt/library/oar/handle/123456789/68443">
    <title>Establishment and optimisation of diagnostic reference levels for common CT examinations in Nigeria</title>
    <link>https://www.um.edu.mt/library/oar/handle/123456789/68443</link>
    <description>Title: Establishment and optimisation of diagnostic reference levels for common CT examinations in Nigeria
Abstract: Purpose: To investigate CT radiation doses in Nigeria and establish DRLs based on&#xD;
CTDIvol, DLP and SSDE and propose a methodology for dose optimisation using a&#xD;
QA phantom and a human cadaver prior to clinical implementation.&#xD;
Materials and methods: The study was carried out in two phases. Phase I involved a&#xD;
survey of CT dose indices including scan parameters and patient demographic&#xD;
information in 23 CT scanners listed in the NNRA registry in Nigeria. Phase II focused&#xD;
on dose optimisation which was divided into three stages. Stage I: Manipulation of the&#xD;
scan parameters and monitoring their effect on the dose indices and psycho-physical&#xD;
parameters using a GE QA phantom. Stage II: Application of the established QA&#xD;
phantom protocols on the human cadaver with further optimisation which was&#xD;
followed with quantitative image analysis based on SNR and CNR, and qualitative&#xD;
evaluation of result of clinical images based on VGA, VGC and VGR. Stage III:&#xD;
clinical implementation of the optimised protocols and re-establishment of DRLs to&#xD;
monitor the effect of optimisation.&#xD;
Results: CT DRLs were established for adults and paediatrics. Fifteen adult QA&#xD;
optimised protocols were established in five CT scanners. Of the 15 QA phantom&#xD;
protocols, nine protocols from three scanners were tested using a cadaver. Of the nine&#xD;
protocols, six were further optimised, two could not be further optimised, whilst, one&#xD;
was not accepted as it did not satisfy image quality requirements. Furthermore, two of&#xD;
the six cadaver optimised protocols were not implemented due to the radiologists’&#xD;
preference of image quality, opting for the established QA optimised protocols. The&#xD;
cadaver optimised protocols were implemented in two of the three CT scanners. Dose&#xD;
reductions achieved for the Toshiba scanner were 37% and 47% for the brain CTDIvol&#xD;
and DLP respectively, whilst, for chest 82%, 81% and 84%; and for abdomen 50%,&#xD;
70% and 45% based on the CTDIvol, DLP and SSDE respectively. Meanwhile, for&#xD;
the GE 16-slice, the dose was reduced by 71% and 64% for the brain CTDIvol and&#xD;
DLP respectively, whilst, for chest by 17%, 3% and 16%; and for abdomen by 8%,&#xD;
16% and 10% based on the CTDIvol, DLP and SSDE respectively.&#xD;
Conclusion: The established DRLs identified CT scanners in Nigeria with higher&#xD;
doses. This guided the implementation of optimised protocols in selected CT scanners providing acceptable image quality based on VGR and quantitative evaluation in terms&#xD;
of SNR and CNR.
Description: M.PHIL.RADIOGRAPHY</description>
    <dc:date>2020-01-01T00:00:00Z</dc:date>
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