Low-Dose Mouse Micro-CT Image Segmentation Based on Multi-Resolution Multi-Organ Shape Prior Knowledge Model
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Chen, Z., Wang, H., Cong, F., & Kettunen, L. (2022). Low-Dose Mouse Micro-CT Image Segmentation Based on Multi-Resolution Multi-Organ Shape Prior Knowledge Model. In CIPAE 2022 : 2022 International Conference on Computers, Information Processing and Advanced Education (pp. 349-353). IEEE. https://doi.org/10.1109/cipae55637.2022.00079
Date
2022Discipline
Laskennallinen tiedeTietotekniikkaSecure Communications Engineering and Signal ProcessingTekniikkaComputing, Information Technology and MathematicsComputational ScienceMathematical Information TechnologySecure Communications Engineering and Signal ProcessingEngineeringComputing, Information Technology and MathematicsAccess restrictions
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© 2022 IEEE
Automatic segmentation of computed tomography (CT) images of mice is a step toward computer-assisted preclinical image analysis. Due to the low image quality of micro-CT images, fully-automatic methods may not achieve robust segmentation. For this reason, human interventions are needed to achieve higher segmentation accuracy. In this paper, we propose a human interactive segmentation method incorporating anatomical prior knowledge for multiple abdominal organs in mouse micro-CT images. The method automatically fits a multi-organ shape model to the user-sketched partial boundary contours. Segmentation accuracy is validated by comparing the proposed method against existing shape models. The robustness of our proposed method was evaluated with different users. Finally, the results suggest the proposed method generates accurate segmentation with good robustness.
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IEEEParent publication ISBN
978-1-6654-6813-8Conference
International Conference on Computers, Information Processing and Advanced EducationIs part of publication
CIPAE 2022 : 2022 International Conference on Computers, Information Processing and Advanced EducationKeywords
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https://converis.jyu.fi/converis/portal/detail/Publication/176925513
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We thank the Molecular Imaging Center of the University of California, Los Angeles for providing 98 mouse micro-CT images to support our work. We also thank the general program of the National Natural Science Fund of China (No. 81971693, 81401475), the Science and Technology Innovation Fund of Dalian City (2018J12GX042), the Fundamental Research Funds for the Central Universities (DUT19JC01), and ...
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