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Motion Correction in Thoracic Positron Emission Tomography electronic resource by Fabian Gigengack, Xiaoyi Jiang, Mohammad Dawood, Klaus P. Schäfers.

By: Gigengack, Fabian [author.]Contributor(s): Jiang, Xiaoyi [author.] | Dawood, Mohammad [author.] | Schäfers, Klaus P [author.] | SpringerLink (Online service)Material type: TextTextSeries: SpringerBriefs in Electrical and Computer EngineeringPublication details: Cham : Springer International Publishing : Imprint: Springer, 2015Description: XI, 88 p. 33 illus., 24 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783319083926Subject(s): Computer Science | Radiology | Computer graphics | Computer Science | Computer Imaging, Vision, Pattern Recognition and Graphics | Imaging / Radiology | Signal, Image and Speech ProcessingDDC classification: 006.6 LOC classification: T385TA1637-1638TK7882.P3Online resources: Click here to access online
Contents:
Introduction -- Motion Estimation -- Motion Correction -- Further Developments in PET Motion Correction.
In: Springer eBooksSummary: Respiratory and cardiac motion leads to image degradation in Positron Emission Tomography (PET), which impairs quantification. In this book, the authors present approaches to motion estimation and motion correction in thoracic PET. The approaches for motion estimation are based on dual gating and mass-preserving image registration (VAMPIRE) and mass-preserving optical flow (MPOF). With mass-preservation, image intensity modulations caused by highly non-rigid cardiac motion are accounted for. Within the image registration framework different data terms, different variants of regularization and parametric and non-parametric motion models are examined. Within the optical flow framework, different data terms and further non-quadratic penalization are also discussed. The approaches for motion correction particularly focus on pipelines in dual gated PET. A quantitative evaluation of the proposed approaches is performed on software phantom data with accompanied ground-truth motion information. Further, clinical applicability is shown on patient data. The book concludes with an outlook of recent developments and potential future advances in the field of PET motion correction.
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Introduction -- Motion Estimation -- Motion Correction -- Further Developments in PET Motion Correction.

Respiratory and cardiac motion leads to image degradation in Positron Emission Tomography (PET), which impairs quantification. In this book, the authors present approaches to motion estimation and motion correction in thoracic PET. The approaches for motion estimation are based on dual gating and mass-preserving image registration (VAMPIRE) and mass-preserving optical flow (MPOF). With mass-preservation, image intensity modulations caused by highly non-rigid cardiac motion are accounted for. Within the image registration framework different data terms, different variants of regularization and parametric and non-parametric motion models are examined. Within the optical flow framework, different data terms and further non-quadratic penalization are also discussed. The approaches for motion correction particularly focus on pipelines in dual gated PET. A quantitative evaluation of the proposed approaches is performed on software phantom data with accompanied ground-truth motion information. Further, clinical applicability is shown on patient data. The book concludes with an outlook of recent developments and potential future advances in the field of PET motion correction.

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