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dc.contributor.authorSeregni, M
dc.contributor.authorPaganelli, C
dc.contributor.authorLee, D
dc.contributor.authorGreer, PB
dc.contributor.authorBaroni, G
dc.contributor.authorKeall, P
dc.contributor.authorRiboldi, M
dc.date.accessioned2018-07-06
dc.date.available2018-07-06
dc.date.issued2016-01-01
dc.identifier.citationPhys Med Biol. 2016 Jan 21;61(2):872-87.en_AU
dc.identifier.urihttp://hdl.handle.net/2123/18539
dc.description.abstractIn-room cine-MRI guidance can provide non-invasive target localization during radiotherapy treatment. However, in order to cope with finite imaging frequency and system latencies between target localization and dose delivery, tumour motion prediction is required. This work proposes a framework for motion prediction dedicated to cine-MRI guidance, aiming at quantifying the geometric uncertainties introduced by this process for both tumour tracking and beam gating. The tumour position, identified through scale invariant features detected in cine-MRI slices, is estimated at high-frequency (25 Hz) using three independent predictors, one for each anatomical coordinate. Linear extrapolation, auto-regressive and support vector machine algorithms are compared against systems that use no prediction or surrogate-based motion estimation. Geometric uncertainties are reported as a function of image acquisition period and system latency. Average results show that the tracking error RMS can be decreased down to a [0.2; 1.2] mm range, for acquisition periods between 250 and 750 ms and system latencies between 50 and 300 ms. Except for the linear extrapolator, tracking and gating prediction errors were, on average, lower than those measured for surrogate-based motion estimation. This finding suggests that cine-MRI guidance, combined with appropriate prediction algorithms, could relevantly decrease geometric uncertainties in motion compensated treatments.en_AU
dc.publisherIOPscienceen_AU
dc.relationNHMRC 1036078, NHMRC 633000en_AU
dc.subjectMagnetic resonance imagingen_AU
dc.titleMotion prediction in MRI-guided radiotherapy based on interleaved orthogonal cine-MRI.en_AU
dc.typeArticleen_AU
dc.subject.asrc029903en_AU
dc.identifier.doi10.1088/0031-9155/61/2/872
dc.type.pubtypePre-printen_AU


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