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1. TASL-Net: Tri-Attention Selective Learning Network for Intelligent Diagnosis of Bimodal Ultrasound Video

Author

Zhao, Chengqian, Yao, Zhao, Hu, Zhaoyu, Xie, Yuanxin, Zhang, Yafang, Wang, Yuanyuan, Li, Shuo, Zhou, Jianhua, Zhou, Jianqiao, Wang, Yin, and Yu, Jinhua

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In the intelligent diagnosis of bimodal (gray-scale and contrast-enhanced) ultrasound videos, medical domain knowledge such as the way sonographers browse videos, the particular areas they emphasize, and the features they pay special attention to, plays a decisive role in facilitating precise diagnosis. Embedding medical knowledge into the deep learning network can not only enhance performance but also boost clinical confidence and reliability of the network. However, it is an intractable challenge to automatically focus on these person- and disease-specific features in videos and to enable networks to encode bimodal information comprehensively and efficiently. This paper proposes a novel Tri-Attention Selective Learning Network (TASL-Net) to tackle this challenge and automatically embed three types of diagnostic attention of sonographers into a mutual transformer framework for intelligent diagnosis of bimodal ultrasound videos. Firstly, a time-intensity-curve-based video selector is designed to mimic the temporal attention of sonographers, thus removing a large amount of redundant information while improving computational efficiency of TASL-Net. Then, to introduce the spatial attention of the sonographers for contrast-enhanced video analysis, we propose the earliest-enhanced position detector based on structural similarity variation, on which the TASL-Net is made to focus on the differences of perfusion variation inside and outside the lesion. Finally, by proposing a mutual encoding strategy that combines convolution and transformer, TASL-Net possesses bimodal attention to structure features on gray-scale videos and to perfusion variations on contrast-enhanced videos. These modules work collaboratively and contribute to superior performance. We conduct a detailed experimental validation of TASL-Net's performance on three datasets, including lung, breast, and liver.

Published
2024

2. Thyroid ultrasound diagnosis improvement via multi-view self-supervised learning and two-stage pre-training

Author

Wang, Jian, Yang, Xin, Jia, Xiaohong, Xue, Wufeng, Chen, Rusi, Chen, Yanlin, Zhu, Xiliang, Liu, Lian, Cao, Yan, Zhou, Jianqiao, Ni, Dong, and Gu, Ning

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Thyroid nodule classification and segmentation in ultrasound images are crucial for computer-aided diagnosis; however, they face limitations owing to insufficient labeled data. In this study, we proposed a multi-view contrastive self-supervised method to improve thyroid nodule classification and segmentation performance with limited manual labels. Our method aligns the transverse and longitudinal views of the same nodule, thereby enabling the model to focus more on the nodule area. We designed an adaptive loss function that eliminates the limitations of the paired data. Additionally, we adopted a two-stage pre-training to exploit the pre-training on ImageNet and thyroid ultrasound images. Extensive experiments were conducted on a large-scale dataset collected from multiple centers. The results showed that the proposed method significantly improves nodule classification and segmentation performance with limited manual labels and outperforms state-of-the-art self-supervised methods. The two-stage pre-training also significantly exceeded ImageNet pre-training., Comment: The article has been accepted by the journal of Computers in Biology and Medicine

Published
2024

3. Automatic nodule identification and differentiation in ultrasound videos to facilitate per-nodule examination

Author

Jiang, Siyuan, Ding, Yan, Wang, Yuling, Xu, Lei, Dai, Wenli, Chang, Wanru, Zhang, Jianfeng, Yu, Jie, Zhou, Jianqiao, Zhang, Chunquan, Liang, Ping, and Kong, Dexing

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Machine Learning
Abstract

Ultrasound is a vital diagnostic technique in health screening, with the advantages of non-invasive, cost-effective, and radiation free, and therefore is widely applied in the diagnosis of nodules. However, it relies heavily on the expertise and clinical experience of the sonographer. In ultrasound images, a single nodule might present heterogeneous appearances in different cross-sectional views which makes it hard to perform per-nodule examination. Sonographers usually discriminate different nodules by examining the nodule features and the surrounding structures like gland and duct, which is cumbersome and time-consuming. To address this problem, we collected hundreds of breast ultrasound videos and built a nodule reidentification system that consists of two parts: an extractor based on the deep learning model that can extract feature vectors from the input video clips and a real-time clustering algorithm that automatically groups feature vectors by nodules. The system obtains satisfactory results and exhibits the capability to differentiate ultrasound videos. As far as we know, it's the first attempt to apply re-identification technique in the ultrasonic field.

Published
2023

4. Multi-Attribute Attention Network for Interpretable Diagnosis of Thyroid Nodules in Ultrasound Images

Author

Manh, Van T., Zhou, Jianqiao, Jia, Xiaohong, Lin, Zehui, Xu, Wenwen, Mei, Zihan, Dong, Yijie, Yang, Xin, Huang, Ruobing, and Ni, Dong

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

Ultrasound (US) is the primary imaging technique for the diagnosis of thyroid cancer. However, accurate identification of nodule malignancy is a challenging task that can elude less-experienced clinicians. Recently, many computer-aided diagnosis (CAD) systems have been proposed to assist this process. However, most of them do not provide the reasoning of their classification process, which may jeopardize their credibility in practical use. To overcome this, we propose a novel deep learning framework called multi-attribute attention network (MAA-Net) that is designed to mimic the clinical diagnosis process. The proposed model learns to predict nodular attributes and infer their malignancy based on these clinically-relevant features. A multi-attention scheme is adopted to generate customized attention to improve each task and malignancy diagnosis. Furthermore, MAA-Net utilizes nodule delineations as nodules spatial prior guidance for the training rather than cropping the nodules with additional models or human interventions to prevent losing the context information. Validation experiments were performed on a large and challenging dataset containing 4554 patients. Results show that the proposed method outperformed other state-of-the-art methods and provides interpretable predictions that may better suit clinical needs., Comment: 11 pages, 7 figures

Published
2022

5. Personalized Diagnostic Tool for Thyroid Cancer Classification using Multi-view Ultrasound

Author

Huang, Han, Dong, Yijie, Jia, Xiaohong, Zhou, Jianqiao, Ni, Dong, Cheng, Jun, and Huang, Ruobing

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Over the past decades, the incidence of thyroid cancer has been increasing globally. Accurate and early diagnosis allows timely treatment and helps to avoid over-diagnosis. Clinically, a nodule is commonly evaluated from both transverse and longitudinal views using thyroid ultrasound. However, the appearance of the thyroid gland and lesions can vary dramatically across individuals. Identifying key diagnostic information from both views requires specialized expertise. Furthermore, finding an optimal way to integrate multi-view information also relies on the experience of clinicians and adds further difficulty to accurate diagnosis. To address these, we propose a personalized diagnostic tool that can customize its decision-making process for different patients. It consists of a multi-view classification module for feature extraction and a personalized weighting allocation network that generates optimal weighting for different views. It is also equipped with a self-supervised view-aware contrastive loss to further improve the model robustness towards different patient groups. Experimental results show that the proposed framework can better utilize multi-view information and outperform the competing methods., Comment: Accepted by MICCAI 2022

Published
2022

8. Ultrasound Viscosity Imaging in Breast Lesions: A Multicenter Prospective Study

Author

Jia, WanRu, Xia, ShuJun, Jia, XiaoHong, Tang, BingHui, Cheng, ShuZhen, Nie, MeiYuan, Guan, Ling, Duan, Ying, Zhang, MengYan, Chen, Xia, Zhang, Hui, Bai, BaoYan, Jia, HaiYun, Li, Ning, Yuan, CongCong, Cai, EnHeng, Dong, YiJie, Zhang, JingWen, Jia, Yi, Liu, Juan, Tang, ZhenYun, Luo, Ting, Zhang, XiaoXiao, Zhan, WeiWei, Zhu, Ying, and Zhou, JianQiao

Published
2024
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9. Virtual elastography ultrasound via generative adversarial network for breast cancer diagnosis

Author

Yao, Zhao, Luo, Ting, Dong, YiJie, Jia, XiaoHong, Deng, YinHui, Wu, GuoQing, Zhu, Ying, Zhang, JingWen, Liu, Juan, Yang, LiChun, Luo, XiaoMao, Li, ZhiYao, Xu, YanJun, Hu, Bin, Huang, YunXia, Chang, Cai, Xu, JinFeng, Luo, Hui, Dong, FaJin, Xia, XiaoNa, Wu, ChengRong, Hu, WenJia, Wu, Gang, Li, QiaoYing, Chen, Qin, Deng, WanYue, Jiang, QiongChao, Mou, YongLin, Yan, HuanNan, Xu, XiaoJing, Yan, HongJu, Zhou, Ping, Shao, Yang, Cui, LiGang, He, Ping, Qian, LinXue, Liu, JinPing, Shi, LiYing, Zhao, YaNan, Xu, YongYuan, Zhan, WeiWei, Wang, YuanYuan, Yu, JinHua, and Zhou, JianQiao

Published
2023
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10. Flip Learning: Erase to Segment

Author

Huang, Yuhao, Yang, Xin, Zou, Yuxin, Chen, Chaoyu, Wang, Jian, Dou, Haoran, Ravikumar, Nishant, Frangi, Alejandro F, Zhou, Jianqiao, and Ni, Dong

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Computer Science - Multiagent Systems
Abstract

Nodule segmentation from breast ultrasound images is challenging yet essential for the diagnosis. Weakly-supervised segmentation (WSS) can help reduce time-consuming and cumbersome manual annotation. Unlike existing weakly-supervised approaches, in this study, we propose a novel and general WSS framework called Flip Learning, which only needs the box annotation. Specifically, the target in the label box will be erased gradually to flip the classification tag, and the erased region will be considered as the segmentation result finally. Our contribution is three-fold. First, our proposed approach erases on superpixel level using a Multi-agent Reinforcement Learning framework to exploit the prior boundary knowledge and accelerate the learning process. Second, we design two rewards: classification score and intensity distribution reward, to avoid under- and over-segmentation, respectively. Third, we adopt a coarse-to-fine learning strategy to reduce the residual errors and improve the segmentation performance. Extensively validated on a large dataset, our proposed approach achieves competitive performance and shows great potential to narrow the gap between fully-supervised and weakly-supervised learning., Comment: Accepted by MICCAI 2021

Published
2021

11. Advances in study on complications encountered in ultrasonography-guided thermal ablation of benign thyroid nodules

Author

HUA Qing, ZHOU Jianqiao

Subjects
complication, thermal ablation, thyroid nodule, ultrasound, Medicine
Abstract

Since 2000, ultrasonography-guided thermal ablation has been widely applied in treating benign thyroid nodule(BTN). However, considering complicated structures of thyroid gland and its surrounding tissues,various complications (such as voice change and hematoma)have been reported and attracted clinical attention. Intraoperative complications encountered in thermal ablation of BTN comprises of nerve (including the recurrent laryngeal nerve, sympathetic nerve and brachial plexus nerve) injury, vascular injury, skin burn and surrounding tissue burn, while postoperative complications mainly include nodule rupture, liquefactive necrosis and abnormal thyroid function. Among intraoperative complications, nerve injury is characterized by vocal changes, which is the most common complication. In the treatment of BTN using radiofrequency ablation and microwave ablation, occurrence rate of vocal changes is 0.4% to 8.1%. Other nerve complications include Horner's syndrome and brachial plexus injury. Vascular injury manifests as bleeding and hematoma; Burns to surrounding tissues include skin burns, tracheal burns, and esophageal burns. Postoperative complications include nodule rupture and abnormal thyroid function.Nodule rupture often occurs 1 week to 6 months after surgery. Liquefactive necrosis is a rare change after BTN using thermal ablation surgery. Abnormal thyroid function includes hypothyroidism and hyperthyroidism. This article reviews the manifestations of complications during and after ultrasound-guided thermal ablation of BTN, providing reference for diagnosis and treatment of complications.

Published
2023
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12. Ultrasonographic characteristics of testicular adrenal residue tumor in patients with congenital adrenal hyperplasia due to 21-hydroxylase deficiency

Author

WANG Zhiqian, LI Min, YÜ Yifei, ZHOU Jianqiao

Subjects
21-hydroxylase defect, congenital adrenocortical hyperplasia, testicular adrenal rest tumor, ultrasound, Medicine
Abstract

Objective: To summarize the ultrasonographic characteristics of testicular adrenal tumor (TART) in male patients with congenital adrenocortical hyperplasia (CAH) due to 21-hydroxylase deficiency, and to improve the understanding of sonographers on TART. Methods: Twenty-one CAH patients due to 21-hydroxylase deficiency were collected. All patients were found to have abnormal echoes in the testis by scrotal high-frequency ultrasound examination and were diagnosed as TART. The ultrasonic images of TART lesions were observed, and the number and growth mode of the lesions involving the testis were evaluated. The morphology, boundary, echogenicity and blood supply characteristics, and epididymis involvement were observed. Results: Among the 21 patients, 14 patients had bilateral testicular lesions with the same ultrasound features, and seven patients were unilateral. Two patients were epididymal involvement. Among the total 35 testicular lesions, 82.9% (29/35) grew along the testicular mediastinum, 17.1% (6/35) grew diffusely. Hypoechoic lesions accounted for 51.4% (18/35), heterogeneous hyperechoic lesions accounted for 28.6% (10/35), and heterogeneous hyperechoic lesions with coarse calcification accounted for 20%(7/35). The lesion morphology mainly showed irregular lobular shape and round shape, accounting for 85.7% (30/35) and 14.3% (7/35), respectively. The rich blood supply lesions accounted for 62.8% (22/35), and 22.9% (8/35) and 14.3% (5/35) of the lesions were hypovascular or anvascular. Conclusions: Sonographic appearance of TART is variable but still characteristic. The lesions present as bilateral testis with rich blood supply and irregular hypoechoic growth along the mediastinum. The ultrasonic features of the bilateral lesions are the same. With the history of CAH, it might provide clues for diagnosis of TART.

Published
2022
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13. Application of ultrasound-based radiomics technology in the evaluation of fetal lung maturity

Author

DU Yanran, JIAO Jing, REN Yunyun, ZHOU Jianqiao

Subjects
radiomics, fetal lung maturity, neonatal respiratory morbidity, fetal lung ultrasound, pregnancy complications, Medicine
Abstract

Objective: To establish a model with ultrasound-based radiomics technology for evaluating fetal lung maturity and verify its efficacy in predicting risk of newborn respiratory disease. Methods: A total of 295 singleton pregnancies were enrolled, and fetal lung ultrasound images (four-chamber view) of each fetal were obtained within 72 hours before delivery. The 295 images were divided into 2 groups according to gestational age (GA) of the day fetal lung ultrasound images collected on examination day: Group 1(GA

Published
2022
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16. Droop control-based fast frequency support of wind power generation integrated grid-forming VSC-HVDC system.

Author

Chen, Qian, Shi, Gang, Lu, Yi, Qiu, Peng, Zhou, Jianqiao, Yang, Renxin, Zhang, Jianwen, Ge, Jun Cong, Jin, Zhaoyang, and Huang, Jiejie

Subjects
TURBINE generators, WIND turbines, WIND power, WIND power plants, SIMULATION software, ELECTRIC transients
Abstract

Current researches mainly focus on the participation of wind farms in primary frequency regulation, including overspeed load shedding control, propeller control and their coordinated control, etc. The frequency support is realized by reserving reserve capacity of wind turbines, but the influence of the dynamic characteristics of maximum power point tracking (MPPT) on the overall frequency regulation characteristics of wind turbines during frequency support is ignored. To this end, firstly, the frequency response model of the system is constructed, and the main factors that affect the frequency dynamic characteristics are revealed. Secondly, the principle of the grid-forming VSC with the function of self-inertial synchronization is introduced, the influence of the dynamic characteristics of MPPT on the frequency regulation characteristics of the wind turbine generator is clarified. Finally, based on the PSCAD/EMTDC electromagnetic transient simulation software platform, the influence of the dynamic characteristics of MPPT on the frequency regulation characteristics are verified by combining the inertia self-synchronous network control technology. The simulation results indicate that with the increase of setting of droop control, the decrease of output power of MPPT becomes large so as to weaken the frequency support capability. [ABSTRACT FROM AUTHOR]

Published
2024
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25. An Embedded DC Power Flow Controller Based on Full-Bridge Modular Multilevel Converter

Author

Zhang, Jianwen, Liu, Yuwen, Zang, Jiajie, Liu, Zichen, Zhou, Jianqiao, Wang, Jiacheng, and Shi, Gang

Abstract

Meshed dc grids help improve the current network's configuration, flexible power management, and reliable power supply. However, the existing power converters implemented in dc grids do not have enough controllability in adjusting each feeder's power, leading to transmission congestion, overloads, and high-power loss issues. The dc power flow controller (DCPFC) is prominent in addressing problems with a better system performance. This article proposes an embedded dc power flow controller (eDCPFC) with full-bridge modular multilevel converter (MMC) (FB-MMC) topology. The eDCPFC is directly integrated into a host MMC. The device's energy is balanced through the coordinated control of the eDCPFC and the host MMC without using isolation transformers or external power supplies. The working principle and the corresponding control strategies of the FB-MMC type eDCPFC and its host MMC are elaborated. Experimental results conducted in a scaled-down prototype validate the feasibility and effectiveness of the proposed topology and control schemes under typical working conditions.

Published
2024
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26. Delta-Type Serial Shunt Soft Normally-Open Points With Wide Power Flow Regulation Range in Distributed Network

Author

Peng, Haohua, Zhang, Jianwen, Zhou, Jianqiao, Shi, Gang, Wang, Jiacheng, and Cai, Xu

Abstract

The soft normally-open points (SNOP) have been proposed in response to challenges raised from renewable energy in the grid. Main scheme adopted in SNOP demonstration projects are back-to-back modular multilevel converter (BTB-MMC), which is costly in multifeeder scenarios. The series shunt multiport SNOP (S2-MSNOP) can reduce the cost and volume. But its energy balance faces difficulties under operating conditions where reactive power provided by the cascaded H-bridge of the device is too small, thus impeding its practical implementation. Accordingly, this article presents a novel delta-type serial shunt soft-normally open points (D-S3NOP) scheme, offering a practical multifeeder interconnection solution. D-S3NOP employs an internal circulating current mechanism to achieve energy balance among its constituent parts, thereby expanding the power flow regulation range. First, the topology feature and working principle of D-S3NOP are presented. Subsequently, a suitable control strategy is designed. Comparison of power flow regulation area and cost among S2-MSNOP, D-S3NOP, and BTB-MMC is made after. Finally, a simulation model and an experimental prototype are constructed for verifying the effectiveness of D-S3NOP.

Published
2024
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27. A Novel Multiple-Medium-AC-Port Power Electronic Transformer

Author

Zhang, Jianwen, Li, Hongming, Kong, Xinyi, Zhou, Jianqiao, Shi, Gang, Zang, Jiajie, and Wang, Jiacheng

Abstract

The multiport power electronic transformer (PET) is a critical equipment in ac/dc hybrid distribution grids, which has the functions of multidirectional power flow, flexible power flow regulation and reactive power control, and fault isolation. However, most proposed PETs have only a single-medium-voltage-ac (MVac) port, limiting their application scenarios in distribution grids. To address this problem, in this article, we propose a PET topology with multiple controllable MVac ports based on the cascaded H-bridge PET. The proposed PET topology can connect to multiple-MVac feeders and supply low-voltage-side loads through multiple terminals, achieving the full utilization of the remaining capacity of connected feeders, thus delaying the distribution capacity expansion and grid upgrade due to the rapid development of energy electrification. Besides, the decoupling control of active and reactive power for each feeder can be achieved. In this article, the operating principle, energy balance mechanism, control strategies, and design and comprehensive comparison of the proposed topology are studied. The simulation and experimental results demonstrate the validity of the proposed topology and control strategy.

Published
2024
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36. Series–Shunt Multiport Soft Normally Open Points

Author

Zhang, Jianwen, Feng, Xin, Zhou, Jianqiao, Zang, Jiajie, Wang, Jiacheng, Shi, Gang, Cai, Xu, and Li, Yunwei

Abstract

Soft normally open point (SNOP) is an emerging solution for distributed networks (DNs) to address voltage violation and feeder congestion caused by the increasing integration of distributed energy resources and new types of loads. Based on power electronics, SNOPs can substitute traditional tie switches for power flow regulation, voltage adjustment, and power quality improvement, enhancing the DNs’ controllability and flexibility. Existing SNOPs found in demonstration projects and the literature are generally based on the back-to-back voltage-source converter (VSC). Because it requires more full-power-rating VSCs as the number of connected feeders increases, this solution is uneconomical in multifeeder flexible interconnection scenarios due to the high device cost and volume. Alternatively, this article proposes a series–shunt multiport SNOP (S2-MSNOP) based on a cascaded H-bridge structure and series–shunt arrangement. The proposed topology can easily extend its ports by increasing the number of submodules with small power ratings, reducing the device cost and volume. The operation principles and control strategies of the S2-MSNOP are elaborated. Verifications on both a 1-MVA simulation model and a 3.3-kVA scaled-down experimental platform prove the feasibility and effectiveness of the S2-MSNOP.

Published
2023
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38. Comprehensive Risk System Based on Shear Wave Elastography and BI-RADS Categories in Assessing Axillary Lymph Node Metastasis of Invasive Breast Cancer—A Multicenter Study

Author

Zhang, Huiting, primary, Dong, Yijie, additional, Jia, Xiaohong, additional, Zhang, Jingwen, additional, Li, Zhiyao, additional, Chuan, Zhirui, additional, Xu, Yanjun, additional, Hu, Bin, additional, Huang, Yunxia, additional, Chang, Cai, additional, Xu, Jinfeng, additional, Dong, Fajin, additional, Xia, Xiaona, additional, Wu, Chengrong, additional, Hu, Wenjia, additional, Wu, Gang, additional, Li, Qiaoying, additional, Chen, Qin, additional, Deng, Wanyue, additional, Jiang, Qiongchao, additional, Mou, Yonglin, additional, Yan, Huannan, additional, Xu, Xiaojing, additional, Yan, Hongju, additional, Zhou, Ping, additional, Shao, Yang, additional, Cui, Ligang, additional, He, Ping, additional, Qian, Linxue, additional, Liu, Jinping, additional, Shi, Liying, additional, Zhao, Yanan, additional, Xu, Yongyuan, additional, Song, Yanyan, additional, Zhan, Weiwei, additional, and Zhou, Jianqiao, additional

Published
2022
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39. Comprehensive Risk System Based on Shear Wave Elastography and BI-RADS Categories in Assessing Axillary Lymph Node Metastasis of Invasive Breast Cancer-A Multicenter Study

Author

Zhang, Huiting, Dong, Yijie, Jia, Xiaohong, Zhang, Jingwen, Li, Zhiyao, Chuan, Zhirui, Xu, Yanjun, Hu, Bin, Huang, Yunxia, Chang, Cai, Xu, Jinfeng, Dong, Fajin, Xia, Xiaona, Wu, Chengrong, Hu, Wenjia, Wu, Gang, Li, Qiaoying, Chen, Qin, Deng, Wanyue, Jiang, Qiongchao, Mou, Yonglin, Yan, Huannan, Xu, Xiaojing, Yan, Hongju, Zhou, Ping, Shao, Yang, Cui, Ligang, He, Ping, Qian, Linxue, Liu, Jinping, Shi, Liying, Zhao, Yanan, Xu, Yongyuan, Song, Yanyan, Zhan, Weiwei, and Zhou, Jianqiao

Subjects
Cancer Research, Oncology
Abstract

PurposeTo develop a risk stratification system that can predict axillary lymph node (LN) metastasis in invasive breast cancer based on the combination of shear wave elastography (SWE) and conventional ultrasound.Materials and MethodsA total of 619 participants pathologically diagnosed with invasive breast cancer underwent breast ultrasound examinations were recruited from a multicenter of 17 hospitals in China from August 2016 to August 2017. Conventional ultrasound and SWE features were compared between positive and negative LN metastasis groups. The regression equation, the weighting, and the counting methods were used to predict axillary LN metastasis. The sensitivity, specificity, and the areas under the receiver operating characteristic curve (AUC) were calculated.ResultsA significant difference was found in the Breast Imaging Reporting and Data System (BI-RADS) category, the “stiff rim” sign, minimum elastic modulusof the internal tumor and peritumor region of 3 mm between positive and negative LN groups (p < 0.05 for all). There was no significant difference in the diagnostic performance of the regression equation, the weighting, and the counting methods (p > 0.05 for all). Using the counting method, a 0–4 grade risk stratification system based on the four characteristics was established, which yielded an AUC of 0.656 (95% CI, 0.617–0.693, p < 0.001), a sensitivity of 54.60% (95% CI, 46.9%–62.1%), and a specificity of 68.99% (95% CI, 64.5%–73.3%) in predicting axillary LN metastasis.ConclusionA 0–4 grade risk stratification system was developed based on SWE characteristics and BI-RADS categories, and this system has the potential to predict axillary LN metastases in invasive breast cancer.

Published
2021

45. Novel Human Artificial Intelligence Hybrid Framework Pinpoints Thyroid Nodule Malignancy and Identifies Overlooked Second-Order Ultrasonographic Features.

Author

Jia, Xiaohong, Ma, Zehao, Kong, Dexing, Li, Yaming, Hu, Hairong, Guan, Ling, Yan, Jiping, Zhang, Ruifang, Gu, Ying, Chen, Xia, Shi, Liying, Luo, Xiaomao, Li, Qiaoying, Bai, Baoyan, Ye, Xinhua, Zhai, Hong, Zhang, Hua, Dong, Yijie, Xu, Lei, and Zhou, Jianqiao

Subjects
ULTRASONIC imaging, THYROID gland tumors, ARTIFICIAL intelligence, CONCEPTUAL structures, T-test (Statistics), DESCRIPTIVE statistics, DATA analysis software
Published
2022
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48. Thyroid Parenchyma Microcalcifications on Ultrasound for Predicting Lymph Node Metastasis in Papillary Thyroid Carcinoma: A Prospective Multicenter Study in China

Author

Liu, Juan, primary, Jia, XiaoHong, additional, Gu, Ying, additional, Chen, Xia, additional, Guan, Ling, additional, Yan, JiPing, additional, Zhai, Hong, additional, Zhou, Na, additional, Dong, YiJie, additional, Zhan, WeiWei, additional, Luo, XiaoMao, additional, and Zhou, JianQiao, additional

Published
2021
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