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dc.contributor.authorMcBain, Catherine A
dc.contributor.authorMoore, Christopher J
dc.contributor.authorGreen, Matthew M L
dc.contributor.authorPrice, Gareth J
dc.contributor.authorSykes, Jonathan R
dc.contributor.authorAmer, Aminah
dc.contributor.authorKhoo, Vincent S
dc.contributor.authorPrice, Patricia M
dc.date.accessioned2009-05-12T16:49:49Z
dc.date.available2009-05-12T16:49:49Z
dc.date.issued2008-08
dc.identifier.citationEarly clinical evaluation of a novel three-dimensional structure delineation software tool (SCULPTER) for radiotherapy treatment planning. 2008, 81 (968):643-52 Br J Radiolen
dc.identifier.issn1748-880X
dc.identifier.pmid18378527
dc.identifier.doi10.1259/bjr/81762224
dc.identifier.urihttp://hdl.handle.net/10541/67977
dc.description.abstractModern radiotherapy treatment planning (RTP) necessitates increased delineation of target volumes and organs at risk. Conventional manual delineation is a laborious, time-consuming and subjective process. It is prone to inconsistency and variability, but has the potential to be improved using automated segmentation algorithms. We carried out a pilot clinical evaluation of SCULPTER (Structure Creation Using Limited Point Topology Evidence in Radiotherapy) - a novel prototype software tool designed to improve structure delineation for RTP. Anonymized MR and CT image datasets from patients who underwent radiotherapy for bladder or prostate cancer were studied. An experienced radiation oncologist used manual and SCULPTER-assisted methods to create clinically acceptable organ delineations. SCULPTER was also tested by four other RTP professionals. Resulting contours were compared by qualitative inspection and quantitatively by using the volumes of the structures delineated and the time taken for completion. The SCULPTER tool was easy to apply to both MR and CT images and diverse anatomical sites. SCULPTER delineations closely reproduced manual contours with no significant volume differences detected, but SCULPTER delineations were significantly quicker (p<0.05) in most cases. In conclusion, clinical application of SCULPTER resulted in rapid and simple organ delineations with equivalent accuracy to manual methods, demonstrating proof-of-principle of the SCULPTER system and supporting its potential utility in RTP.
dc.language.isoenen
dc.subjectProstate Canceren
dc.subjectUrinary Bladder Canceren
dc.subject.meshAged
dc.subject.meshFemale
dc.subject.meshHumans
dc.subject.meshMagnetic Resonance Imaging
dc.subject.meshMale
dc.subject.meshPilot Projects
dc.subject.meshProstatic Neoplasms
dc.subject.meshRadiation Oncology
dc.subject.meshRadiotherapy Dosage
dc.subject.meshRadiotherapy Planning, Computer-Assisted
dc.subject.meshSoftware
dc.subject.meshTomography, X-Ray Computed
dc.subject.meshUrinary Bladder Neoplasms
dc.titleEarly clinical evaluation of a novel three-dimensional structure delineation software tool (SCULPTER) for radiotherapy treatment planning.en
dc.typeArticleen
dc.contributor.departmentAcademic Department of Radiation Oncology, The University of Manchester, Manchester, UK.en
dc.identifier.journalThe British Journal of Radiologyen
html.description.abstractModern radiotherapy treatment planning (RTP) necessitates increased delineation of target volumes and organs at risk. Conventional manual delineation is a laborious, time-consuming and subjective process. It is prone to inconsistency and variability, but has the potential to be improved using automated segmentation algorithms. We carried out a pilot clinical evaluation of SCULPTER (Structure Creation Using Limited Point Topology Evidence in Radiotherapy) - a novel prototype software tool designed to improve structure delineation for RTP. Anonymized MR and CT image datasets from patients who underwent radiotherapy for bladder or prostate cancer were studied. An experienced radiation oncologist used manual and SCULPTER-assisted methods to create clinically acceptable organ delineations. SCULPTER was also tested by four other RTP professionals. Resulting contours were compared by qualitative inspection and quantitatively by using the volumes of the structures delineated and the time taken for completion. The SCULPTER tool was easy to apply to both MR and CT images and diverse anatomical sites. SCULPTER delineations closely reproduced manual contours with no significant volume differences detected, but SCULPTER delineations were significantly quicker (p<0.05) in most cases. In conclusion, clinical application of SCULPTER resulted in rapid and simple organ delineations with equivalent accuracy to manual methods, demonstrating proof-of-principle of the SCULPTER system and supporting its potential utility in RTP.


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