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Please use this identifier to cite or link to this item: https://repository.monashhealth.org/monashhealthjspui/handle/1/40525
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dc.contributor.authorLau K.K.en
dc.contributor.authorBuchan K.en
dc.contributor.authorKuganesan A.en
dc.contributor.authorArdley N.en
dc.contributor.authorKhor R.en
dc.date.accessioned2021-05-14T13:51:47Zen
dc.date.available2021-05-14T13:51:47Zen
dc.date.copyright2016en
dc.date.created20161013en
dc.date.issued2016-10-13en
dc.identifier.citationBritish Journal of Radiology. 89 (1064) (no pagination), 2016. Article Number: 20160171. Date of Publication: 2016.en
dc.identifier.issn0007-1285en
dc.identifier.urihttps://repository.monashhealth.org/monashhealthjspui/handle/1/40525en
dc.description.abstractMetal within the CT field of view causes artefact that degrades the diagnostic quality of the processed images. This is related to the high atomic number of most metals and is due to a combination of beam hardening, scatter, edge effects and photon starvation. Both software and hardware metal artefact reduction (MAR) techniques have been developed. Iterative reconstruction software MAR techniques can be applied on raw CT data sets and show improved image quality in the setting of sparse projection data when compared with filtered back-projection methods. Recently, a novel singleenergy iterative metal artefact reduction technique (IMART) was released for use with large orthopaedic devices. The aim of this pictorial essay was to demonstrate the usefulness of IMART in the setting of both orthopaedic and nonorthopaedic metallic objects and devices.Copyright © 2016 The Authors.en
dc.languageenen
dc.languageEnglishen
dc.publisherBritish Institute of Radiology (E-mail: publications@bir.org.uk)en
dc.relation.ispartofBritish Journal of Radiologyen
dc.titleOrthopaedic and non-orthopaedic applications of a single-energy iterative metal artefact reduction technique and other metal artefact reduction techniques explained.en
dc.typeReviewen
dc.type.studyortrialReview article (e.g. literature review, narrative review)-
dc.identifier.doihttp://monash.idm.oclc.org/login?url=http://dx.doi.org/10.1259/bjr.20160171en
dc.publisher.placeUnited Kingdomen
dc.identifier.source612519777en
dc.identifier.institution(Khor, Kuganesan, Ardley) Diagnostic Imaging Department, Monash Medical Centre, Monash Health, Melbourne, VIC, Australia (Buchan) CT Clinical Science, Philips Healthcare, Macquarie-Park, NSW, Australia (Lau) Diagnostic and Interventional Radiologist, Monash Medical Centre, Monash Health, Melbourne, VIC, Australia (Lau) Faculty of Medicine, Nursing and Health Sciences, Monash University, Clayton, VIC, Australiaen
dc.description.addressR. Khor, Diagnostic Imaging Department, Monash Medical Centre, Monash Health, Melbourne, VIC, Australia. E-mail: robertkhor@gmail.comen
dc.description.publicationstatusEmbaseen
dc.rights.statementCopyright 2016 Elsevier B.V., All rights reserved.en
dc.identifier.authoremailKhor R.; robertkhor@gmail.comen
dc.identifier.affiliationext(Buchan) CT Clinical Science, Philips Healthcare, Macquarie-Park, NSW, Australia-
dc.identifier.affiliationext(Lau) Faculty of Medicine, Nursing and Health Sciences, Monash University, Clayton, VIC, Australia-
dc.identifier.affiliationmh(Lau) Diagnostic and Interventional Radiologist, Monash Medical Centre, Monash Health, Melbourne, VIC, Australia-
dc.identifier.affiliationmh(Khor, Kuganesan, Ardley) Diagnostic Imaging Department, Monash Medical Centre, Monash Health, Melbourne, VIC, Australia-
item.openairetypeReview-
item.grantfulltextnone-
item.cerifentitytypePublications-
item.openairecristypehttp://purl.org/coar/resource_type/c_18cf-
item.fulltextNo Fulltext-
crisitem.author.deptRadiology-
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