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- Dokumenttyp:
- Konferenzbeitrag
- Autor(en):
- Kraus, R.; Delso, G.; Loeb, H-P.; Martinez-Möller, A.; Bundschuh, R.; Drzezga, A.; Ziegler, S. I.
- Titel:
- An inpainting approach for the correction of incomplete attenuation maps in PET/MR
- Abstract:
- Objectives: Attenuation correction of raw PET data is essential for reconstructing quantitative images. In whole-body PET/MR imaging, a specific MR sequence is used for the determination of the attenuation map. Unfortunately, current hybrid devices strongly restrict the field of view (FOV) of the MR. Truncated regions then lead to incomplete attenuation maps causing artifacts in the PET image. Methods: We propose to compensate these truncation artifacts in MR/PET by a geometrical inpainting approach applied to the MR image. Image structure, conceptualized in terms of level lines, is continued into the gaps following the direction of arrival at the boundary. We evaluated an algorithm that iteratively propagates smoothness information given by the discrete Laplacian. However, stronger continuation can be achieved by locally interpolating the gradient along the level lines and solving a third-order differential equation. As input, we only require missing regions to be marked in the image, e.g. by an image carving algorithm. The method was tested using coregistered MR and PET/CT datasets of the same patient that show large holes in hips, arms, and shoulders. Results: A comparable PET/CT reconstruction with equally limited FOV reveals strong artifacts, e.g. relative errors of 4.5% in the liver. Results show that inpainting effectively extrapolates missing attenuation information while preserving different tissue types. Reconstruction errors can be reduced, e.g. 1-2% in the liver, with small risk of local artifacts due to overcorrection. Large gaps (>6cm) and fine structures (<8mm) are critical and mistaken for soft tissue unless the strong continuation approach is used. Sensitivity to gap boundaries can be limited by larger masks and preprocessing the image. Conclusions: Inpainting algorithms show promise as a tool to prevent truncation artifacts in PET/MR when no additional source of patient information is available. Further work is required to include a-priori anatomical knowledge to better guide intensity propagation.
- Stichworte:
- MedicalImaging, CAMP,PET, MR, MR/PET, AttenuationCorrection
- Kongress- / Buchtitel:
- Journal of Nuclear Medicine
- Band / Teilband / Volume:
- 51
- Verlagsort:
- Salt Lake City, USA
- Jahr:
- 2010
- Seiten:
- 1380
- Serienbandnummer:
- Suppl. 2
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