U-net based metal segmentation on projection domain for metal artifact reduction in dental CT

AbstractMetal objects in X-ray computed tomography can cause severe artifacts. The state-of-the-art metal artifact reduction methods are in the sinogram inpainting category and are iterative methods. This paper proposes a projection-domain algorithm to reduce the metal artifacts. In this algorithm, the unknowns are the metal-affected projections, while the objective function is set up in the image domain. The data fidelity term is not utilized in the objective function. The objective function of the proposed algorithm consists of two terms: the total variation of the metal-removed image and the energy of the negative-valued pixels in the image. After the metal-affected projections are modified, the final image is reconstructed via the filtered backprojection algorithm. The feasibility of the proposed algorithm has been verified by real experimental data.

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A metal artifact reduction method for a dental CT based on adaptive local thresholding and prior image generation

BioMedical Engineering OnLine ◽

10.1186/s12938-016-0240-8 ◽

2016 ◽

Vol 15 (1) ◽

Cited By ~ 7

Author(s):

Mohamed A. A. Hegazy ◽

Min Hyoung Cho ◽

Soo Yeol Lee

Keyword(s):

Reduction Method ◽

Artifact Reduction ◽

Metal Artifact ◽

Metal Artifact Reduction ◽

Image Generation ◽

Dental Ct ◽

Local Thresholding

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MR Imaging with Metal Artifact Reduction to Differentiate between Patients with and without Infected Total Hip Arthroplasty

10.1055/s-0038-1639537 ◽

2018 ◽

Author(s):

Benedikt Schwaiger ◽

Alexandra Gersing ◽

Daniela Muenzel ◽

Julia Dangelmaier ◽

Peter Prodinger ◽

...

Keyword(s):

Total Hip Arthroplasty ◽

Mr Imaging ◽

Hip Arthroplasty ◽

Artifact Reduction ◽

Metal Artifact ◽

Metal Artifact Reduction ◽

Total Hip

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Study on the usefulness of Metal artifact reduction algorithm and MonoE reconstruction (Dual Layer Detector) overlapping application

Korean Society of Computed Tomographic Technology ◽

10.31320/jksct.2018.20.2.79 ◽

2018 ◽

Vol 20 (2) ◽

pp. 79-87

Author(s):

Jang-hun Baek ◽

Seon-Young Kang ◽

Jun-Hyub Lee ◽

Yun-Sang Lee

Keyword(s):

Artifact Reduction ◽

Metal Artifact ◽

Metal Artifact Reduction ◽

Reduction Algorithm

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Comparison of metal artifact reduction techniques in magnetic resonance imaging of carbon-reinforced PEEK and titanium spinal implants

Acta Radiologica ◽

10.1177/02841851211029077 ◽

2021 ◽

pp. 028418512110290

Author(s):

Georg Osterhoff ◽

Florian A Huber ◽

Laura C Graf ◽

Ferdinand Erdlen ◽

Hans-Christoph Pape ◽

...

Keyword(s):

Magnetic Resonance Imaging ◽

Magnetic Resonance ◽

Pedicle Screws ◽

Artifact Reduction ◽

Metal Artifact ◽

Metal Artifact Reduction ◽

Signal Loss ◽

Resonance Imaging ◽

Spinal Implants ◽

Titanium Screws

Background Carbon-reinforced PEEK (C-FRP) implants are non-magnetic and have increasingly been used for the fixation of spinal instabilities. Purpose To compare the effect of different metal artifact reduction (MAR) techniques in magnetic resonance imaging (MRI) on titanium and C-FRP spinal implants. Material and Methods Rod-pedicle screw constructs were mounted on ovine cadaver spine specimens and instrumented with either eight titanium pedicle screws or pedicle screws made of C-FRP and marked with an ultrathin titanium shell. MR scans were performed of each configuration on a 3-T scanner. MR sequences included transaxial conventional T1-weighted turbo spin echo (TSE) sequences, T2-weighted TSE, and short-tau inversion recovery (STIR) sequences and two different MAR-techniques: high-bandwidth (HB) and view-angle-tilting (VAT) with slice encoding for metal artifact correction (SEMAC). Metal artifact degree was assessed by qualitative and quantitative measures. Results There was a much stronger effect on artifact reduction with using C-FRP implants compared to using specific MRI MAR-techniques (screw shank: P < 0.001; screw tulip: P < 0.001; rod: P < 0.001). VAT-SEMAC sequences were able to reduce screw-related signal loss artifacts in constructs with titanium screws to a certain degree. Constructs with C-FRP screws showed less artifact-related implant diameter amplification when compared to constructs with titanium screws ( P < 0.001). Conclusion Constructs with C-FRP screws are associated with significantly less artifacts compared to constructs with titanium screws including dedicated MAR techniques. Artifact-reducing sequences are able to reduce implant-related artifacts. This effect is stronger in constructs with titanium screws than in constructs with C-FRP screws.

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