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Autores principales: Tan, Lixing, Song, Shuang, Zhou, Kangneng, Duan, Chengbo, Wang, Lanying, Ren, Huayang, Liu, Linlin, Zhang, Wei, Xiao, Ruoxiu
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2404.11889
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author Tan, Lixing
Song, Shuang
Zhou, Kangneng
Duan, Chengbo
Wang, Lanying
Ren, Huayang
Liu, Linlin
Zhang, Wei
Xiao, Ruoxiu
author_facet Tan, Lixing
Song, Shuang
Zhou, Kangneng
Duan, Chengbo
Wang, Lanying
Ren, Huayang
Liu, Linlin
Zhang, Wei
Xiao, Ruoxiu
contents X-ray images play a vital role in the intraoperative processes due to their high resolution and fast imaging speed and greatly promote the subsequent segmentation, registration and reconstruction. However, over-dosed X-rays superimpose potential risks to human health to some extent. Data-driven algorithms from volume scans to X-ray images are restricted by the scarcity of paired X-ray and volume data. Existing methods are mainly realized by modelling the whole X-ray imaging procedure. In this study, we propose a learning-based approach termed CT2X-GAN to synthesize the X-ray images in an end-to-end manner using the content and style disentanglement from three different image domains. Our method decouples the anatomical structure information from CT scans and style information from unpaired real X-ray images/ digital reconstructed radiography (DRR) images via a series of decoupling encoders. Additionally, we introduce a novel consistency regularization term to improve the stylistic resemblance between synthesized X-ray images and real X-ray images. Meanwhile, we also impose a supervised process by computing the similarity of computed real DRR and synthesized DRR images. We further develop a pose attention module to fully strengthen the comprehensive information in the decoupled content code from CT scans, facilitating high-quality multi-view image synthesis in the lower 2D space. Extensive experiments were conducted on the publicly available CTSpine1K dataset and achieved 97.8350, 0.0842 and 3.0938 in terms of FID, KID and defined user-scored X-ray similarity, respectively. In comparison with 3D-aware methods ($π$-GAN, EG3D), CT2X-GAN is superior in improving the synthesis quality and realistic to the real X-ray images.
format Preprint
id arxiv_https___arxiv_org_abs_2404_11889
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Multi-view X-ray Image Synthesis with Multiple Domain Disentanglement from CT Scans
Tan, Lixing
Song, Shuang
Zhou, Kangneng
Duan, Chengbo
Wang, Lanying
Ren, Huayang
Liu, Linlin
Zhang, Wei
Xiao, Ruoxiu
Image and Video Processing
Computer Vision and Pattern Recognition
X-ray images play a vital role in the intraoperative processes due to their high resolution and fast imaging speed and greatly promote the subsequent segmentation, registration and reconstruction. However, over-dosed X-rays superimpose potential risks to human health to some extent. Data-driven algorithms from volume scans to X-ray images are restricted by the scarcity of paired X-ray and volume data. Existing methods are mainly realized by modelling the whole X-ray imaging procedure. In this study, we propose a learning-based approach termed CT2X-GAN to synthesize the X-ray images in an end-to-end manner using the content and style disentanglement from three different image domains. Our method decouples the anatomical structure information from CT scans and style information from unpaired real X-ray images/ digital reconstructed radiography (DRR) images via a series of decoupling encoders. Additionally, we introduce a novel consistency regularization term to improve the stylistic resemblance between synthesized X-ray images and real X-ray images. Meanwhile, we also impose a supervised process by computing the similarity of computed real DRR and synthesized DRR images. We further develop a pose attention module to fully strengthen the comprehensive information in the decoupled content code from CT scans, facilitating high-quality multi-view image synthesis in the lower 2D space. Extensive experiments were conducted on the publicly available CTSpine1K dataset and achieved 97.8350, 0.0842 and 3.0938 in terms of FID, KID and defined user-scored X-ray similarity, respectively. In comparison with 3D-aware methods ($π$-GAN, EG3D), CT2X-GAN is superior in improving the synthesis quality and realistic to the real X-ray images.
title Multi-view X-ray Image Synthesis with Multiple Domain Disentanglement from CT Scans
topic Image and Video Processing
Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2404.11889