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学者姓名:郑绍华
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医学影像共享是医疗信息云共享中最重要的部分,因为医疗信息80%以上是医学影像,但信息共享面临数据安全、隐私保护和信息检索等问题。虽然已有很多密文域可逆信息隐藏(RDH-EI, Reversible Data Hiding in Encrypted Image)方案,但一般不能直接应用于DICOM医学影像上。为了满足云服务中DICOM文件的隐私保护和信息检索需求,文章提出一种基于ZUC加性同态和多层差值直方图平移的DICOM图像RDH-EI方案。所提方案不改变DICOM文件格式,不增加文件大小,且图像解密和信息提取可分离。实验结果表明,所提出的方案具有良好的灵活性和计算效率,是一种适用云共享的RDH-EI方案。
Keyword :
DICOM DICOM ZUC算法 ZUC算法 加性同态 加性同态 可逆信息隐藏 可逆信息隐藏 多层差值直方图平移 多层差值直方图平移
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| GB/T 7714 | 郑梓劲 , 宋志刚 , 杨文琴 et al. 基于国密加性同态的医学影像可逆信息隐藏方法 [J]. | 长江信息通信 , 2024 , 37 (03) : 1-6 . |
| MLA | 郑梓劲 et al. "基于国密加性同态的医学影像可逆信息隐藏方法" . | 长江信息通信 37 . 03 (2024) : 1-6 . |
| APA | 郑梓劲 , 宋志刚 , 杨文琴 , 李代松 , 郑绍华 . 基于国密加性同态的医学影像可逆信息隐藏方法 . | 长江信息通信 , 2024 , 37 (03) , 1-6 . |
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Objectives Patients with T4 obstructive colorectal cancer (OCC) have a high mortality rate. Therefore, an accurate distinction between T4 and T1-T3 (NT4) in OCC is an important part of preoperative evaluation, especially in the emergency setting. This paper introduces three models of radiomics, deep learning, and deep learning-based radiomics to identify T4 OCC.Methods We established a dataset of computed tomography (CT) images of 164 patients with pathologically confirmed OCC, from which 2537 slides were extracted. First, since T4 tumors penetrate the bowel wall and involve adjacent organs, we explored whether the peritumoral region contributes to the assessment of T4 OCC. Furthermore, we visualized the radiomics and deep learning features using the t-distributed stochastic neighbor embedding technique (t-SNE). Finally, we built a merged model by fusing radiomic features with deep learning features. In this experiment, the performance of each model was evaluated by the area under the receiver operating characteristic curve (AUC).Results In the test cohort, the AUC values predicted by the radiomics model in the dilated region of interest (dROI) was 0.770. And the AUC value of the deep learning model with the patches extended 20-pixel reached 0.936. Combining the characteristics of radiomics and deep learning, our method achieved an AUC value of 0.947 in the T4 and non-T4 (NT4) classification, and increased the AUC value to 0.950 after the addition of clinical features.Conclusion The prediction results of our merged model of deep learning radiomics outperformed the deep learning model and significantly outperformed the radiomics model. The experimental results demonstrate that combining the peritumoral region improves the prediction performance of the radiomics model and the deep learning model.
Keyword :
Deep learning Deep learning Obstructive colorectal cancer Obstructive colorectal cancer Peritumoral region Peritumoral region Radiomics Radiomics ResNet ResNet
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| GB/T 7714 | Pan, Lin , He, Tian , Huang, Zihan et al. Radiomics approach with deep learning for predicting T4 obstructive colorectal cancer using CT image [J]. | ABDOMINAL RADIOLOGY , 2023 , 48 (4) : 1246-1259 . |
| MLA | Pan, Lin et al. "Radiomics approach with deep learning for predicting T4 obstructive colorectal cancer using CT image" . | ABDOMINAL RADIOLOGY 48 . 4 (2023) : 1246-1259 . |
| APA | Pan, Lin , He, Tian , Huang, Zihan , Chen, Shuai , Zhang, Junrong , Zheng, Shaohua et al. Radiomics approach with deep learning for predicting T4 obstructive colorectal cancer using CT image . | ABDOMINAL RADIOLOGY , 2023 , 48 (4) , 1246-1259 . |
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Purpose: The identification of early-stage Parkinson's disease (PD) is important for the effective management of patients, affecting their treatment and prognosis. Recently, structural brain networks (SBNs) have been used to diagnose PD. However, how to mine abnormal patterns from high-dimensional SBNs has been a challenge due to the complex topology of the brain. Meanwhile, the existing prediction mechanisms of deep learning models are often complicated, and it is difficult to extract effective interpretations. In addition, most works only focus on the classification of imaging and ignore clinical scores in practical applications, which limits the ability of the model. Inspired by the regional modularity of SBNs, we adopted graph learning from the perspective of node clustering to construct an interpretable framework for PD classification.Methods: In this study, a multi-task graph structure learning framework based on node clustering (MNC-Net) is proposed for the early diagnosis of PD. Specifically, we modeled complex SBNs into modular graphs that facilitated the representation learning of abnormal patterns. Traditional graph neural networks are optimized through graph structure learning based on node clustering, which identifies potentially abnormal brain regions and reduces the impact of irrelevant noise. Furthermore, we employed a regression task to link clinical scores to disease classification, and incorporated latent domain information into model training through multi-task learning.Results: We validated the proposed approach on the Parkinsons Progression Markers Initiative dataset. Exper-imental results showed that our MNC-Net effectively separated the early-stage PD from healthy controls(HC) with an accuracy of 95.5%. The t-SNE figures have showed that our graph structure learning method can capture more efficient and discriminatory features. Furthermore, node clustering parameters were used as important weights to extract salient task-related brain regions(ROIs). These ROIs are involved in the development of mood disorders, tremors, imbalances and other symptoms, highlighting the importance of memory, language and mild motor function in early PD. In addition, statistical results from clinical scores confirmed that our model could capture abnormal connectivity that was significantly different between PD and HC. These results are consistent with previous studies, demonstrating the interpretability of our methods.
Keyword :
Clinical scores Clinical scores Early Parkinson?s disease Early Parkinson?s disease Graph neural networks Graph neural networks Structural brain network Structural brain network
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| GB/T 7714 | Huang, Liqin , Ye, Xiaofang , Yang, Mingjing et al. MNC-Net: Multi-task graph structure learning based on node clustering for early Parkinson's disease diagnosis [J]. | COMPUTERS IN BIOLOGY AND MEDICINE , 2023 , 152 . |
| MLA | Huang, Liqin et al. "MNC-Net: Multi-task graph structure learning based on node clustering for early Parkinson's disease diagnosis" . | COMPUTERS IN BIOLOGY AND MEDICINE 152 (2023) . |
| APA | Huang, Liqin , Ye, Xiaofang , Yang, Mingjing , Pan, Lin , Zheng, Shao hua . MNC-Net: Multi-task graph structure learning based on node clustering for early Parkinson's disease diagnosis . | COMPUTERS IN BIOLOGY AND MEDICINE , 2023 , 152 . |
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Background: Automatic pulmonary artery-vein separation has considerable importance in the diagnosis and treatment of lung diseases. However, insufficient connectivity and spatial inconsistency have always been the problems of artery-vein separation. Methods: A novel automatic method for artery-vein separation in CT images is presented in this work. Specifically, a multi-scale information aggregated network (MSIA-Net) including multi-scale fusion blocks and deep supervision, is proposed to learn the features of artery-vein and aggregate additional semantic information, respectively. The proposed method integrates nine MSIA-Net models for artery-vein separation, vessel segmentation, and centerline separation tasks along with axial, coronal, and sagittal multi-view slices. First, the preliminary artery-vein separation results are obtained by the proposed multi-view fusion strategy (MVFS). Then, centerline correction algorithm (CCA) is used to correct the preliminary results of artery- vein separation by the centerline separation results. Finally, the vessel segmentation results are utilized to reconstruct the artery-vein morphology. In addition, weighted cross-entropy and dice loss are employed to solve the class imbalance problem. Results: We constructed 50 manually labeled contrast-enhanced computed CT scans for five-fold cross -validation, and experimental results demonstrated that our method achieves superior segmentation perfor-mance of 97.7%, 85.1%, and 84.9% on ACC, Pre, and DSC, respectively. Additionally, a series of ablation studies demonstrate the effectiveness of the proposed components. Conclusion: The proposed method can effectively solve the problem of insufficient vascular connectivity and correct the spatial inconsistency of artery-vein.
Keyword :
Centerline correction Centerline correction CT images CT images Multi-scale information aggregated Multi-scale information aggregated Pulmonary artery-vein separation Pulmonary artery-vein separation
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| GB/T 7714 | Pan, Lin , Li, Zhaopei , Shen, Zhiqiang et al. Learning multi-view and centerline topology connectivity information for pulmonary artery-vein separation [J]. | COMPUTERS IN BIOLOGY AND MEDICINE , 2023 , 155 . |
| MLA | Pan, Lin et al. "Learning multi-view and centerline topology connectivity information for pulmonary artery-vein separation" . | COMPUTERS IN BIOLOGY AND MEDICINE 155 (2023) . |
| APA | Pan, Lin , Li, Zhaopei , Shen, Zhiqiang , Liu, Zheng , Huang, Liqin , Yang, Mingjing et al. Learning multi-view and centerline topology connectivity information for pulmonary artery-vein separation . | COMPUTERS IN BIOLOGY AND MEDICINE , 2023 , 155 . |
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Diabetic retinopathy (DR) is a common ocular complication in diabetic patients and is a major cause of blindness in the population. DR often leads to progressive changes in the structure of the vascular system and causes abnormalities. In the process of DR analysis, the image quality needs to be evaluated first, and images with better imaging quality are selected, followed by value-added proliferative diabetic retinopathy (PDR) detection. Therefore, in this paper, the MixNet classification network was first used for image quality assessment (IQA), and then the ResNet50-CMBA network was used for DR grading of images, and both networks were combined with a k-fold cross-validation strategy. We evaluated our method at the 2022 Diabetic Retinopathy Analysis Challenge (DRAC), where image quality was evaluated on 1103 ultra-wide optical coherence tomography angiography (UW-OCTA) images and DR grading was detected on 997 UW-OCTA images. Our method achieved a Quadratic Weight Kappa of 0.7547 and 0.8010 in the test cases, respectively. © 2023, The Author(s), under exclusive license to Springer Nature Switzerland AG.
Keyword :
Diabetic retinopathy grading Diabetic retinopathy grading Image quality assessment Image quality assessment Ultra-wide optical coherence tomography angiograph Ultra-wide optical coherence tomography angiograph
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| GB/T 7714 | Zhang, W. , Chen, H. , Li, D. et al. Automatic Image Quality Assessment and DR Grading Method Based on Convolutional Neural Network [未知]. |
| MLA | Zhang, W. et al. "Automatic Image Quality Assessment and DR Grading Method Based on Convolutional Neural Network" [未知]. |
| APA | Zhang, W. , Chen, H. , Li, D. , Zheng, S. . Automatic Image Quality Assessment and DR Grading Method Based on Convolutional Neural Network [未知]. |
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Background: With the wide application of CT scanning, the separation of pulmonary arteries and veins (A/V) based on CT images plays an important role for assisting surgeons in preoperative planning of lung cancer surgery. However, distinguishing between arteries and veins in chest CT images remains challenging due to the complex structure and the presence of their similarities. Methods: We proposed a novel method for automatically separating pulmonary arteries and veins based on vessel topology information and a twin-pipe deep learning network. First, vessel tree topology is constructed by combining scale-space particles and multi-stencils fast marching (MSFM) methods to ensure the continuity and authenticity of the topology. Second, a twin-pipe network is designed to learn the multiscale differences between arteries and veins and the characteristics of the small arteries that closely accompany bronchi. Finally, we designed a topology optimizer that considers interbranch and intrabranch topological relationships to optimize the results of arteries and veins classification. Results: The proposed approach is validated on the public dataset CARVE14 and our private dataset. Compared with ground truth, the proposed method achieves an average accuracy of 90.1% on the CARVE14 dataset, and 96.2% on our local dataset. Conclusions: The method can effectively separate pulmonary arteries and veins and has good generalization for chest CT images from different devices, as well as enhanced and noncontrast CT image sequences from the same device.
Keyword :
Chest CT images Chest CT images Preoperative planning Preoperative planning Pulmonary artery-vein segmentation Pulmonary artery-vein segmentation Topology reconstruction Topology reconstruction Twin-pipe network Twin-pipe network
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| GB/T 7714 | Pan, Lin , Yan, Xiaochao , Zheng, Yaoyong et al. Automatic pulmonary artery-vein separation in CT images using a twin-pipe network and topology reconstruction [J]. | PEERJ COMPUTER SCIENCE , 2023 , 9 . |
| MLA | Pan, Lin et al. "Automatic pulmonary artery-vein separation in CT images using a twin-pipe network and topology reconstruction" . | PEERJ COMPUTER SCIENCE 9 (2023) . |
| APA | Pan, Lin , Yan, Xiaochao , Zheng, Yaoyong , Huang, Liqin , Zhang, Zhen , Fu, Rongda et al. Automatic pulmonary artery-vein separation in CT images using a twin-pipe network and topology reconstruction . | PEERJ COMPUTER SCIENCE , 2023 , 9 . |
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Kidney cancer is one of the most common malignancies worldwide. Early diagnosis is an effective way to reduce the mortality and automated segmentation of kidney tumor in computed tomography scans is an important way to assisted kidney cancer diagnosis. In this paper, we propose a convolution-and-transformer network (COTRNet) for end to end kidney, kidney tumor, and kidney cyst segmentation. COTRNet is an encoder-decoder architecture where the encoder and the decoder are connected by skip connections. The encoder consists of four convolution-transformer layers to learn multi-scale features which have local and global receptive fields crucial for accurate segmentation. In addition, we leverage pretrained weights and deep supervision to further improve segmentation performance. Experimental results on the 2021 kidney and kidney tumor segmentation (kits21) challenge demonstrated that our method achieved average dice of 61.6%, surface dice of 49.1%, and tumor dice of 50.52%, respectively, which ranked the 22(th) place on the kits21 challenge.
Keyword :
Convolutional neural network Convolutional neural network Kidney tumor Kidney tumor Transformer Transformer
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| GB/T 7714 | Shen, Zhiqiang , Yang, Hua , Zhang, Zhen et al. Automated Kidney Tumor Segmentation with Convolution and Transformer Network [J]. | KIDNEY AND KIDNEY TUMOR SEGMENTATION, KITS 2021 , 2022 , 13168 : 1-12 . |
| MLA | Shen, Zhiqiang et al. "Automated Kidney Tumor Segmentation with Convolution and Transformer Network" . | KIDNEY AND KIDNEY TUMOR SEGMENTATION, KITS 2021 13168 (2022) : 1-12 . |
| APA | Shen, Zhiqiang , Yang, Hua , Zhang, Zhen , Zheng, Shaohua . Automated Kidney Tumor Segmentation with Convolution and Transformer Network . | KIDNEY AND KIDNEY TUMOR SEGMENTATION, KITS 2021 , 2022 , 13168 , 1-12 . |
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结肠镜检查广泛应用于结直肠癌的早期筛查和诊疗,但仅靠人工判读结肠息肉漏检率较高,有研究统计可达25%。基于深度学习的计算机辅助技术有助于提高息肉检测率,但目前深度学习的主流分割网络U-Net存在着两个局限:一是编解码的输出特征图之间存在着语义鸿沟;二是U-Net的双层卷积单元无法学习多尺度信息;割裂地看待容易使模型陷入局部最优。提出一种基于同构化改进的U-Net网络,不仅能缓解编解码特征间的语义鸿沟,且具备提取多尺度特征的能力。首先,在U-Net编解码器和跳层路径中,引入同构单元IU构成同构网络I-Net,以减少编解码器之间的语义鸿沟;接着,结合密集连接和残差连接的优点,设计密集残差单元DRU...
Keyword :
同构网络 同构网络 息肉分割 息肉分割 深度学习 深度学习
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| GB/T 7714 | 沈志强 , 林超男 , 潘林 et al. 基于同构化改进的U-Net结直肠息肉分割方法 [J]. | 中国生物医学工程学报 , 2022 , 41 (01) : 48-56 . |
| MLA | 沈志强 et al. "基于同构化改进的U-Net结直肠息肉分割方法" . | 中国生物医学工程学报 41 . 01 (2022) : 48-56 . |
| APA | 沈志强 , 林超男 , 潘林 , 聂炜宇 , 裴玥 , 黄立勤 et al. 基于同构化改进的U-Net结直肠息肉分割方法 . | 中国生物医学工程学报 , 2022 , 41 (01) , 48-56 . |
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为解决肺CT影像中动、静脉血管的自动分离、精确提取问题,提出一种结合血管拓扑与连接非局部卷积神经网络和图卷积网络(Non-local CNN-GCN)的肺动静脉自动分离方法.首先,使用尺度空间粒子采样方法将血管树表示为一组中心线体素粒子;然后,根据粒子体素及其相邻体素构造拓扑图,并从拓扑图中提取只包含动脉或静脉分支的拓扑子图;最后,基于拓扑图训练Non-local CNN-GCN分类器,并利用拓扑子图来改进分类结果.在16例CT影像数据上进行训练和测试,结果显示,本方法能有效去除动静脉黏连点,分类平均准确度达94%.
Keyword :
CNN-GCN网络 CNN-GCN网络 动静脉分离 动静脉分离 深度学习 深度学习 非局部模块 非局部模块
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| GB/T 7714 | 黄立勤 , 陈柳清 , 潘林 et al. 结合血管拓扑和Non-local CNN-GCN的肺动静脉分离方法 [J]. | 福州大学学报(自然科学版) , 2022 , 50 (01) : 24-30 . |
| MLA | 黄立勤 et al. "结合血管拓扑和Non-local CNN-GCN的肺动静脉分离方法" . | 福州大学学报(自然科学版) 50 . 01 (2022) : 24-30 . |
| APA | 黄立勤 , 陈柳清 , 潘林 , 郑斌 , 郑绍华 . 结合血管拓扑和Non-local CNN-GCN的肺动静脉分离方法 . | 福州大学学报(自然科学版) , 2022 , 50 (01) , 24-30 . |
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Automatic segmentation of kidney tumors and lesions in medical images is an essential measure for clinical treatment and diagnosis. In this work, we proposed a two-stage cascade network to segment three hierarchical regions: kidney, kidney tumor and cyst from CT scans. The cascade is designed to decompose the four-class segmentation problem into two segmentation subtasks. The kidney is obtained in the first stage using a modified 3D U-Net called Kidney-Net. In the second stage, we designed a fine segmentation model, which named Masses-Net to segment kidney tumor and cyst based on the kidney which obtained in the first stage. A multi-dimension feature (MDF) module is utilized to learn more spatial and contextual information. The convolutional block attention module (CBAM) also introduced to focus on the important feature. Moreover, we adopted a deep supervision mechanism for regularizing segmentation accuracy and feature learning in the decoding part. Experiments with KiTS2021 testset show that our proposed method achieve Dice, Surface Dice and Tumor Dice of 0.650, 0.518 and 0.478, respectively.
Keyword :
Cascade framework Cascade framework Deep learning Deep learning Kidney/tumor segmentation Kidney/tumor segmentation
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| GB/T 7714 | Lin, Chaonan , Fu, Rongda , Zheng, Shaohua . Kidney and Kidney Tumor Segmentation Using a Two-Stage Cascade Framework [J]. | KIDNEY AND KIDNEY TUMOR SEGMENTATION, KITS 2021 , 2022 , 13168 : 59-70 . |
| MLA | Lin, Chaonan et al. "Kidney and Kidney Tumor Segmentation Using a Two-Stage Cascade Framework" . | KIDNEY AND KIDNEY TUMOR SEGMENTATION, KITS 2021 13168 (2022) : 59-70 . |
| APA | Lin, Chaonan , Fu, Rongda , Zheng, Shaohua . Kidney and Kidney Tumor Segmentation Using a Two-Stage Cascade Framework . | KIDNEY AND KIDNEY TUMOR SEGMENTATION, KITS 2021 , 2022 , 13168 , 59-70 . |
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