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124 results on '"Zhang, Shuangyang"'

1. Performance of Medical Image Fusion in High-level Analysis Tasks: A Mutual Enhancement Framework for Unaligned PAT and MRI Image Fusion

Author

Zhong, Yutian, He, Jinchuan, Liang, Zhichao, Zhang, Shuangyang, Feng, Qianjin, Chen, Wufan, and Qi, Li

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Photoacoustic tomography (PAT) offers optical contrast, whereas magnetic resonance imaging (MRI) excels in imaging soft tissue and organ anatomy. The fusion of PAT with MRI holds promising application prospects due to their complementary advantages. Existing image fusion have made considerable progress in pre-registered images, yet spatial deformations are difficult to avoid in medical imaging scenarios. More importantly, current algorithms focus on visual quality and statistical metrics, thus overlooking the requirements of high-level tasks. To address these challenges, we proposes a unsupervised fusion model, termed PAMRFuse+, which integrates image generation and registration. Specifically, a cross-modal style transfer network is introduced to simplify cross-modal registration to single-modal registration. Subsequently, a multi-level registration network is employed to predict displacement vector fields. Furthermore, a dual-branch feature decomposition fusion network is proposed to address the challenges of cross-modal feature modeling and decomposition by integrating modality-specific and modality-shared features. PAMRFuse+ achieves satisfactory results in registering and fusing unaligned PAT-MRI datasets. Moreover, for the first time, we evaluate the performance of medical image fusion with contour segmentation and multi-organ instance segmentation. Extensive experimental demonstrations reveal the advantages of PAMRFuse+ in improving the performance of medical image analysis tasks.

Published
2024

2. Spiral Scanning and Self-Supervised Image Reconstruction Enable Ultra-Sparse Sampling Multispectral Photoacoustic Tomography

Author

Zhong, Yutian, Zhang, Xiaoming, Mo, Zongxin, Zhang, Shuangyang, Chen, Wufan, and Qi, Li

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Physics - Medical Physics
Abstract

Multispectral photoacoustic tomography (PAT) is an imaging modality that utilizes the photoacoustic effect to achieve non-invasive and high-contrast imaging of internal tissues. However, the hardware cost and computational demand of a multispectral PAT system consisting of up to thousands of detectors are huge. To address this challenge, we propose an ultra-sparse spiral sampling strategy for multispectral PAT, which we named U3S-PAT. Our strategy employs a sparse ring-shaped transducer that, when switching excitation wavelengths, simultaneously rotates and translates. This creates a spiral scanning pattern with multispectral angle-interlaced sampling. To solve the highly ill-conditioned image reconstruction problem, we propose a self-supervised learning method that is able to introduce structural information shared during spiral scanning. We simulate the proposed U3S-PAT method on a commercial PAT system and conduct in vivo animal experiments to verify its performance. The results show that even with a sparse sampling rate as low as 1/30, our U3S-PAT strategy achieves similar reconstruction and spectral unmixing accuracy as non-spiral dense sampling. Given its ability to dramatically reduce the time required for three-dimensional multispectral scanning, our U3S-PAT strategy has the potential to perform volumetric molecular imaging of dynamic biological activities.

Published
2024

3. Deep learning acceleration of iterative model-based light fluence correction for photoacoustic tomography

Author

Liang, Zhaoyong, Zhang, Shuangyang, Liang, Zhichao, Mo, Zhongxin, Zhang, Xiaoming, Zhong, Yutian, Chen, Wufan, and Qi, Li

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Physics - Biological Physics
Abstract

Photoacoustic tomography (PAT) is a promising imaging technique that can visualize the distribution of chromophores within biological tissue. However, the accuracy of PAT imaging is compromised by light fluence (LF), which hinders the quantification of light absorbers. Currently, model-based iterative methods are used for LF correction, but they require significant computational resources due to repeated LF estimation based on differential light transport models. To improve LF correction efficiency, we propose to use Fourier neural operator (FNO), a neural network specially designed for solving differential equations, to learn the forward projection of light transport in PAT. Trained using paired finite-element-based LF simulation data, our FNO model replaces the traditional computational heavy LF estimator during iterative correction, such that the correction procedure is significantly accelerated. Simulation and experimental results demonstrate that our method achieves comparable LF correction quality to traditional iterative methods while reducing the correction time by over 30 times.

Published
2023

18. Wireless multilateral devices for optogenetic studies of individual and social behaviors

Author

Yang, Yiyuan, Wu, Mingzheng, Vázquez-Guardado, Abraham, Wegener, Amy J., Grajales-Reyes, Jose G., Deng, Yujun, Wang, Taoyi, Avila, Raudel, Moreno, Justin A., Minkowicz, Samuel, Dumrongprechachan, Vasin, Lee, Jungyup, Zhang, Shuangyang, Legaria, Alex A., Ma, Yuhang, Mehta, Sunita, Franklin, Daniel, Hartman, Layne, Bai, Wubin, Han, Mengdi, Zhao, Hangbo, Lu, Wei, Yu, Yongjoon, Sheng, Xing, Banks, Anthony, Yu, Xinge, Donaldson, Zoe R., Gereau, IV, Robert W., Good, Cameron H., Xie, Zhaoqian, Huang, Yonggang, Kozorovitskiy, Yevgenia, and Rogers, John A.

Published
2021
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21. Author Correction: Wireless multilateral devices for optogenetic studies of individual and social behaviors

Author

Yang, Yiyuan, Wu, Mingzheng, Vázquez-Guardado, Abraham, Wegener, Amy J., Grajales-Reyes, Jose G., Deng, Yujun, Wang, Taoyi, Avila, Raudel, Moreno, Justin A., Minkowicz, Samuel, Dumrongprechachan, Vasin, Lee, Jungyup, Zhang, Shuangyang, Legaria, Alex A., Ma, Yuhang, Mehta, Sunita, Franklin, Daniel, Hartman, Layne, Bai, Wubin, Han, Mengdi, Zhao, Hangbo, Lu, Wei, Yu, Yongjoon, Sheng, Xing, Banks, Anthony, Yu, Xinge, Donaldson, Zoe R., Gereau, IV, Robert W., Good, Cameron H., Xie, Zhaoqian, Huang, Yonggang, Kozorovitskiy, Yevgenia, and Rogers, John A.

Published
2022
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24. Unsupervised Fusion of Misaligned PAT and MRI Images via Mutually Reinforcing Cross-Modality Image Generation and Registration

Author

Zhong, Yutian, Zhang, Shuangyang, Liu, Zhenyang, Zhang, Xiaoming, Mo, Zongxin, Zhang, Yizhe, Hu, Haoyu, Chen, Wufan, and Qi, Li

Abstract

Photoacoustic tomography (PAT) and magnetic resonance imaging (MRI) are two advanced imaging techniques widely used in pre-clinical research. PAT has high optical contrast and deep imaging range but poor soft tissue contrast, whereas MRI provides excellent soft tissue information but poor temporal resolution. Despite recent advances in medical image fusion with pre-aligned multimodal data, PAT-MRI image fusion remains challenging due to misaligned images and spatial distortion. To address these issues, we propose an unsupervised multi-stage deep learning framework called PAMRFuse for misaligned PAT and MRI image fusion. PAMRFuse comprises a multimodal to unimodal registration network to accurately align the input PAT-MRI image pairs and a self-attentive fusion network that selects information-rich features for fusion. We employ an end-to-end mutually reinforcing mode in our registration network, which enables joint optimization of cross-modality image generation and registration. To the best of our knowledge, this is the first attempt at information fusion for misaligned PAT and MRI. Qualitative and quantitative experimental results show the excellent performance of our method in fusing PAT-MRI images of small animals captured from commercial imaging systems.

Published
2024
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26. Astrocyte dysfunction drives abnormal resting-state functional connectivity in depression

Author

Liu, Jiaming, primary, Mo, Jia-Wen, additional, Wang, Xunda, additional, An, Ziqi, additional, Zhang, Shuangyang, additional, Zhang, Can-Yuan, additional, Yi, Peiwei, additional, Leong, Alex T. L., additional, Ren, Jing, additional, Chen, Liang-Yu, additional, Mo, Ran, additional, Xie, Yuanyao, additional, Feng, Qianjin, additional, Chen, Wufan, additional, Gao, Tian-Ming, additional, Wu, Ed X., additional, Feng, Yanqiu, additional, and Cao, Xiong, additional

Published
2022
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28. Advanced Image Post-Processing Methods for Photoacoustic Tomography: A Review.

Author

Tang, Kaiyi, Zhang, Shuangyang, Liang, Zhichao, Wang, Yang, Ge, Jia, Chen, Wufan, and Qi, Li

Subjects
TOMOGRAPHY, LITERATURE reviews, IMAGE reconstruction, SOUND waves, PHOTOACOUSTIC spectroscopy, PHOTOACOUSTIC effect, IMAGE intensifiers
Abstract

Photoacoustic tomography (PAT) is a promising imaging technique that utilizes the detection of light-induced acoustic waves for both morphological and functional biomedical imaging. However, producing high-quality images using PAT is still challenging and requires further research. Besides improving image reconstruction, which turns the raw photoacoustic signal into a PAT image, an alternative way to address this issue is through image post-processing, which can enhance and optimize the reconstructed PAT image. Image post-processing methods have rapidly emerged in PAT and are proven to be essential in improving image quality in recent research. In this review, we investigate the need for image post-processing in PAT imaging. We conduct a thorough literature review on the latest PAT image post-processing articles, including both general and PAT-specific post-processing techniques. In contrast to previous reviews, our analysis focuses specifically on advanced image post-processing rather than image reconstruction methods. By highlighting their potential applications, we hope to encourage further research and development in PAT image post-processing technology. [ABSTRACT FROM AUTHOR]

Published
2023
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34. Epithelial Cell Adhesion Molecule-Functionalized Fe3O4@Au Nanoparticles for Coregistered Optoacoustic and Magnetic Resonance Imaging and Photothermal Therapy of Hepatocellular Carcinoma

Author

Wang, Ruixuan, primary, Zhang, Shuangyang, additional, Lin, Yuxing, additional, Liang, Zhichao, additional, Deng, Han, additional, Hu, Haoyu, additional, Zhu, Wen, additional, Wen, Sai, additional, Li, Xipan, additional, Wu, Jian, additional, Qi, Li, additional, and Fang, Chihua, additional

Published
2022
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35. Effect of Probiotic Supplements on Oxidative Stress Biomarkers in First-Episode Bipolar Disorder Patients: A Randomized, Placebo-Controlled Trial

Author

Zeng, Cuirong, primary, Qiu, Yan, additional, Li, Sujuan, additional, Teng, Ziwei, additional, Xiang, Hui, additional, Chen, Jindong, additional, Wu, Xiangxin, additional, Cao, Ting, additional, Zhang, Shuangyang, additional, Chen, Qian, additional, Wu, Haishan, additional, and Cai, HuaLin, additional

Published
2022
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41. Epithelial Cell Adhesion Molecule-Functionalized Fe3O4@Au Nanoparticles for Coregistered Optoacoustic and Magnetic Resonance Imaging and Photothermal Therapy of Hepatocellular Carcinoma.

Author

Wang, Ruixuan, Zhang, Shuangyang, Lin, Yuxing, Liang, Zhichao, Deng, Han, Hu, Haoyu, Zhu, Wen, Wen, Sai, Li, Xipan, Wu, Jian, Qi, Li, and Fang, Chihua

Abstract

Early diagnosis and management of hepatocellular carcinoma (HCC) is important for improving the 5-year survival rate. Multimodal imaging is of great significance for obtaining complementary information, improving the efficacy of tumor detection, and monitoring HCC recurrence. The rational development of targeted nanoprobes with excellent performance is of great significance for the accurate diagnosis of HCC and image-guided photothermal therapy (PTT). In the present study, we synthesized a hybrid nanoprobe containing epithelial cell adhesion molecule-functionalized Fe3O4@Au nanoparticles as an HCC-targeted nanoprobe, which served as a dual-modal contrast agent for optoacoustic tomography (OAT) and magnetic resonance imaging (MRI) and as a photothermal sensitizer for PTT. Using this nanoprobe, we evaluated the application of coregistered OAT–MRI for the diagnosis and therapy of HCC to resolve an image alignment problem. Body-position variation in OAT and MRI was minimized using a specially designed 3D-printed dual-modality animal imaging bed constructed from polylactic acid. The registration accuracy of OAT–MRI data was further improved by a robust image registration protocol. Dual-modality coregistered imaging was performed for the early diagnosis of HCC and monitoring of curative effects. To our knowledge, this is the first study to apply a combination of a targeted nanoprobe and coregistration of OAT–MRI for the diagnosis and management of abdominal diseases. [ABSTRACT FROM AUTHOR]

Published
2022
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46. An investigation of drying technologies for small Masson pine logs

Author

Cai, Jiabin, Ding, Tao, Wang, Chuangui, and Zhang, Shuangyang

Subjects
Heating -- Equipment and supplies, Pine -- Analysis, Business, Forest products industry
Abstract

Abstract Small-diameter Masson pine (Pinus massoniana) logs with a length of 800 mm and a diameter ranging from 108 to 132 mm were dried with a mild schedule in a [...]

Published
2012

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