Your search keyword '"Zheng, Qiguang"' showing total 15 results

1. A optimization framework for herbal prescription planning based on deep reinforcement learning

Author

Yang, Kuo, Yu, Zecong, Su, Xin, He, Xiong, Wang, Ning, Zheng, Qiguang, Yu, Feidie, Liu, Zhuang, Wen, Tiancai, and Zhou, Xuezhong

Subjects

Computer Science - Artificial Intelligence

Abstract

Treatment planning for chronic diseases is a critical task in medical artificial intelligence, particularly in traditional Chinese medicine (TCM). However, generating optimized sequential treatment strategies for patients with chronic diseases in different clinical encounters remains a challenging issue that requires further exploration. In this study, we proposed a TCM herbal prescription planning framework based on deep reinforcement learning for chronic disease treatment (PrescDRL). PrescDRL is a sequential herbal prescription optimization model that focuses on long-term effectiveness rather than achieving maximum reward at every step, thereby ensuring better patient outcomes. We constructed a high-quality benchmark dataset for sequential diagnosis and treatment of diabetes and evaluated PrescDRL against this benchmark. Our results showed that PrescDRL achieved a higher curative effect, with the single-step reward improving by 117% and 153% compared to doctors. Furthermore, PrescDRL outperformed the benchmark in prescription prediction, with precision improving by 40.5% and recall improving by 63%. Overall, our study demonstrates the potential of using artificial intelligence to improve clinical intelligent diagnosis and treatment in TCM., Comment: 13 pages, 4 figures

Published

2023

2. A Latent Fingerprint in the Wild Database

Author

Liu, Xinwei, Raja, Kiran, Wang, Renfang, Qiu, Hong, Wu, Hucheng, Sun, Dechao, Zheng, Qiguang, Liu, Nian, Wang, Xiaoxia, Huang, Gehang, Ramachandra, Raghavendra, and Busch, Christoph

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Latent fingerprints are among the most important and widely used evidence in crime scenes, digital forensics and law enforcement worldwide. Despite the number of advancements reported in recent works, we note that significant open issues such as independent benchmarking and lack of large-scale evaluation databases for improving the algorithms are inadequately addressed. The available databases are mostly of semi-public nature, lack of acquisition in the wild environment, and post-processing pipelines. Moreover, they do not represent a realistic capture scenario similar to real crime scenes, to benchmark the robustness of the algorithms. Further, existing databases for latent fingerprint recognition do not have a large number of unique subjects/fingerprint instances or do not provide ground truth/reference fingerprint images to conduct a cross-comparison against the latent. In this paper, we introduce a new wild large-scale latent fingerprint database that includes five different acquisition scenarios: reference fingerprints from (1) optical and (2) capacitive sensors, (3) smartphone fingerprints, latent fingerprints captured from (4) wall surface, (5) Ipad surface, and (6) aluminium foil surface. The new database consists of 1,318 unique fingerprint instances captured in all above mentioned settings. A total of 2,636 reference fingerprints from optical and capacitive sensors, 1,318 fingerphotos from smartphones, and 9,224 latent fingerprints from each of the 132 subjects were provided in this work. The dataset is constructed considering various age groups, equal representations of genders and backgrounds. In addition, we provide an extensive set of analysis of various subset evaluations to highlight open challenges for future directions in latent fingerprint recognition research., Comment: Submitted to IEEE Transactions on Information Forensics and Security (under review)

Published

2023

3. Deep representation learning from electronic medical records identifies distinct symptom based subtypes and progression patterns for COVID-19 prognosis

Author

Zheng, Qiguang, Shen, Qifan, Shu, Zixin, Chang, Kai, Zhong, Kunyu, Yan, Yuhang, Ke, Jia, Huang, Jingjing, Su, Rui, Xia, Jianan, and Zhou, Xuezhong

Published

2024

4. SympGAN: A systematic knowledge integration system for symptom–gene associations network

Author

Lu, Kezhi, Yang, Kuo, Sun, Hailong, Zhang, Qian, Zheng, Qiguang, Xu, Kuan, Chen, Jianxin, and Zhou, Xuezhong

Published

2023

5. PrescDRL: deep reinforcement learning for herbal prescription planning in treatment of chronic diseases.

Author

Yang, Kuo, Yu, Zecong, Su, Xin, Zhang, Fengjin, He, Xiong, Wang, Ning, Zheng, Qiguang, Yu, Feidie, Wen, Tiancai, and Zhou, Xuezhong

Subjects

DIAGNOSIS of diabetes, TREATMENT of diabetes, CHRONIC disease treatment, CHINESE medicine, THERAPEUTICS, RESEARCH funding, HERBAL medicine, ARTIFICIAL intelligence, DEEP learning, CONCEPTUAL structures, DRUG efficacy, MATHEMATICAL models, COMPUTER-aided diagnosis, COMPUTERS in medicine, DRUGS, THEORY, ACCURACY, ALGORITHMS

Abstract

Treatment planning for chronic diseases is a critical task in medical artificial intelligence, particularly in traditional Chinese medicine (TCM). However, generating optimized sequential treatment strategies for patients with chronic diseases in different clinical encounters remains a challenging issue that requires further exploration. In this study, we proposed a TCM herbal prescription planning framework based on deep reinforcement learning for chronic disease treatment (PrescDRL). PrescDRL is a sequential herbal prescription optimization model that focuses on long-term effectiveness rather than achieving maximum reward at every step, thereby ensuring better patient outcomes. We constructed a high-quality benchmark dataset for sequential diagnosis and treatment of diabetes and evaluated PrescDRL against this benchmark. Our results showed that PrescDRL achieved a higher curative effect, with the single-step reward improving by 117% and 153% compared to doctors. Furthermore, PrescDRL outperformed the benchmark in prescription prediction, with precision improving by 40.5% and recall improving by 63%. Overall, our study demonstrates the potential of using artificial intelligence to improve clinical intelligent diagnosis and treatment in TCM. [ABSTRACT FROM AUTHOR]

Published

2024

6. Clinical features and the traditional Chinese medicine therapeutic characteristics of 293 COVID-19 inpatient cases

Author

Shu, Zixin, Zhou, Yana, Chang, Kai, Liu, Jifen, Min, Xiaojun, Zhang, Qing, Sun, Jing, Xiong, Yajuan, Zou, Qunsheng, Zheng, Qiguang, Ji, Jinghui, Poon, Josiah, Liu, Baoyan, Zhou, Xuezhong, and Li, Xiaodong

Published

2020

7. Add-on Chinese medicine for hospitalized chronic obstructive pulmonary disease (CHOP): A cohort study of hospital registry

Author

Xu, Ning, primary, Zhong, Kunyu, additional, Yu, Haibin, additional, Shu, Zixin, additional, Chang, Kai, additional, Zheng, Qiguang, additional, Tian, Haoyu, additional, Zhou, Ling, additional, Wang, Wei, additional, Qu, Yunyan, additional, Liu, Baoyan, additional, Zhou, Xuezhong, additional, Chan, Kam Wa, additional, and Li, Jiansheng, additional

Published

2023

8. DRONet: effectiveness-driven drug repositioning framework using network embedding and ranking learning

Author

Yang, Kuo, primary, Yang, Yuxia, additional, Fan, Shuyue, additional, Xia, Jianan, additional, Zheng, Qiguang, additional, Dong, Xin, additional, Liu, Jun, additional, Liu, Qiong, additional, Lei, Lei, additional, Zhang, Yingying, additional, Li, Bing, additional, Gao, Zhuye, additional, Zhang, Runshun, additional, Liu, Baoyan, additional, Wang, Zhong, additional, and Zhou, Xuezhong, additional

Published

2022

9. RESurv: A Deep Survival Analysis Model to Reveal Population Heterogeneity by Individual Risk

Author

Zheng, Qiguang, primary, Shen, Qifan, additional, Su, Xin, additional, Yang, Kuo, additional, Shu, Zixin, additional, and Zhou, Xuezhong, additional

Published

2022

10. Phenonizer: A Fine-Grained Phenotypic Named Entity Recognizer for Chinese Clinical Texts

Author

Zou, Qunsheng, primary, Yang, Kuo, additional, Shu, Zixin, additional, Chang, Kai, additional, Zheng, Qiguang, additional, Zheng, Yi, additional, Lu, Kezhi, additional, Xu, Ning, additional, Tian, Haoyu, additional, Li, Xiaomeng, additional, Yang, Yuxia, additional, Zhou, Yana, additional, Yu, Haibin, additional, Zhang, Xiaoping, additional, Xia, Jianan, additional, Zhu, Qiang, additional, Poon, Josiah, additional, Poon, Simon, additional, Zhang, Runshun, additional, Li, Xiaodong, additional, and Zhou, Xuezhong, additional

Published

2022

11. DRONet: effectiveness-driven drug repositioning framework using network embedding and ranking learning.

Author

Yang, Kuo, Yang, Yuxia, Fan, Shuyue, Xia, Jianan, Zheng, Qiguang, Dong, Xin, Liu, Jun, Liu, Qiong, Lei, Lei, Zhang, Yingying, Li, Bing, Gao, Zhuye, Zhang, Runshun, Liu, Baoyan, Wang, Zhong, and Zhou, Xuezhong

Subjects

DRUG repositioning, DRUG development, DRUG efficacy, INFORMATION networks, DEEP learning

Abstract

As one of the most vital methods in drug development, drug repositioning emphasizes further analysis and research of approved drugs based on the existing large amount of clinical and experimental data to identify new indications of drugs. However, the existing drug repositioning methods didn't achieve enough prediction performance, and these methods do not consider the effectiveness information of drugs, which make it difficult to obtain reliable and valuable results. In this study, we proposed a drug repositioning framework termed DRONet, which make full use of effectiveness comparative relationships (ECR) among drugs as prior information by combining network embedding and ranking learning. We utilized network embedding methods to learn the deep features of drugs from a heterogeneous drug-disease network, and constructed a high-quality drug-indication data set including effectiveness-based drug contrast relationships. The embedding features and ECR of drugs are combined effectively through a designed ranking learning model to prioritize candidate drugs. Comprehensive experiments show that DRONet has higher prediction accuracy (improving 87.4% on Hit@1 and 37.9% on mean reciprocal rank) than state of the art. The case analysis also demonstrates high reliability of predicted results, which has potential to guide clinical drug development. [ABSTRACT FROM AUTHOR]

Published

2023

12. Longitudinal clinical trajectory analysis of individuals before and after diagnosis of Type 2 Diabetes Mellitus (T2DM) indicates that vascular problems start early

Author

Heald, Adrian H, primary, Chang, Kai, additional, Jia, Ting, additional, Sun, Hailong, additional, Zheng, Qiguang, additional, Wang, Xinyan, additional, Xia, Jianan, additional, Stedman, Mike, additional, Fachim, Helene, additional, Gibson, Martin, additional, Zhou, Xuezhong, additional, SG, Anderson, additional, Peng, Yonghong, additional, and Ollier, William, additional

Published

2021

13. Longitudinal clinical trajectory analysis of individuals before and after diagnosis of Type 2 Diabetes Mellitus (T2DM) indicates that vascular problems start early

Author

Heald, Adrian, primary, Chang, Kai, additional, Jia, Ting, additional, Sun, Hailong, additional, Zheng, Qiguang, additional, Wang, Xinyan, additional, Xia, Jianan, additional, Stedman, Mike, additional, Fachim, Helene, additional, Gibson, Martin, additional, Zhou, Xuezhong, additional, Anderson, Simon, additional, Peng, Yonghong, additional, and Ollier, Bill, additional

Published

2021

14. Add-On Chinese Medicine for Coronavirus Disease 2019 (ACCORD): A Retrospective Cohort Study of Hospital Registries

Author

Shu, Zixin, primary, Chang, Kai, additional, Zhou, Yana, additional, Peng, Chaoan, additional, Li, Xugui, additional, Cai, Wei, additional, Wei, Li, additional, Zheng, Qiguang, additional, Tian, Haoyu, additional, Xia, Jianan, additional, Yang, Kuo, additional, Wang, Ning, additional, Liu, Jifen, additional, Min, Xiaojun, additional, Yan, Dengying, additional, Sun, Jing, additional, Wu, Huan, additional, Li, Xiaomeng, additional, Zheng, Yi, additional, Yu, Zecong, additional, Lu, Xi, additional, Yang, Yuxia, additional, Jia, Ting, additional, Ji, Jinghui, additional, Zou, Qunzheng, additional, Wang, Yinyan, additional, Xiao, Minzhong, additional, Zhang, Qing, additional, Xiong, Yajuan, additional, Sun, Feng, additional, Zhu, Qiang, additional, Jiang, Xingxing, additional, Wang, Guodong, additional, Tang, Sydney Chi-Wai, additional, Zhang, Junhua, additional, Li, Xiuyang, additional, Zhang, Nevin, additional, Zhang, Boli, additional, Tong, Xiaolin, additional, Liu, Baoyan, additional, Zhou, Xuezhong, additional, Chan, Kam Wa, additional, and Li, Xiaodong, additional

Published

2021

15. Add-On Semi-Individualized Chinese Medicine for Coronavirus Disease 2019 (ACCORD): A Retrospective Cohort Study of Hospital Registries

Author

Shu, Zixin, primary, Chang, Kai, additional, Zhou, Yana, additional, Peng, Chaoan, additional, Li, Xugui, additional, Cai, Wei, additional, Wei, Li, additional, Zheng, Qiguang, additional, Tian, Haoyu, additional, Xia, Jianan, additional, Yang, Kuo, additional, Wang, Ning, additional, Liu, Jiifen, additional, Min, Xiaojun, additional, Yan, Dengying, additional, Sun, Jing, additional, Wu, Huan, additional, Li, Xiaomeng, additional, Zheng, Yi, additional, Yu, Zecong, additional, Lu, Xi, additional, Yang, Yuxia, additional, Jia, Ting, additional, Ji, Jinghui, additional, Zou, Qunsheng, additional, Wang, Yinyan, additional, Xiao, Minzhong, additional, Zhang, Qing, additional, Xiong, Yajuan, additional, Sun, Feng, additional, Zhu, Qiang, additional, Jiang, Xingxing, additional, Wang, Guodong, additional, Tang, Sydney C.W., additional, Zhang, Junhua, additional, Li, Xiuyang, additional, Zhang, Nevin, additional, Zhang, Boli, additional, Tong, Xiaolin, additional, Liu, Baoyan, additional, Zhou, Xuezhong, additional, Chan, Kam Wa, additional, and Li, Xiaodong, additional

Published

2020