Artificial intelligence manages congenital cataract with individualized prediction and telehealth computing
Abstract A challenge of chronic diseases that remains to be solved is how to liberate patients and medical resources from the burdens of long-term monitoring and periodic visits. Precise management based on artificial intelligence (AI) holds great promise; however, a clinical application that fully...
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Nature Portfolio
2020
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oai:doaj.org-article:737f5b0004e146a7bec22cf2d79b21a22021-12-02T19:02:24ZArtificial intelligence manages congenital cataract with individualized prediction and telehealth computing10.1038/s41746-020-00319-x2398-6352https://doaj.org/article/737f5b0004e146a7bec22cf2d79b21a22020-08-01T00:00:00Zhttps://doi.org/10.1038/s41746-020-00319-xhttps://doaj.org/toc/2398-6352Abstract A challenge of chronic diseases that remains to be solved is how to liberate patients and medical resources from the burdens of long-term monitoring and periodic visits. Precise management based on artificial intelligence (AI) holds great promise; however, a clinical application that fully integrates prediction and telehealth computing has not been achieved, and further efforts are required to validate its real-world benefits. Taking congenital cataract as a representative, we used Bayesian and deep-learning algorithms to create CC-Guardian, an AI agent that incorporates individualized prediction and scheduling, and intelligent telehealth follow-up computing. Our agent exhibits high sensitivity and specificity in both internal and multi-resource validation. We integrate our agent with a web-based smartphone app and prototype a prediction-telehealth cloud platform to support our intelligent follow-up system. We then conduct a retrospective self-controlled test validating that our system not only accurately detects and addresses complications at earlier stages, but also reduces the socioeconomic burdens compared to conventional methods. This study represents a pioneering step in applying AI to achieve real medical benefits and demonstrates a novel strategy for the effective management of chronic diseases.Erping LongJingjing ChenXiaohang WuZhenzhen LiuLiming WangJiewei JiangWangting LiYi ZhuChuan ChenZhuoling LinJing LiXiaoyan LiHui ChenChong GuoLanqin ZhaoDaoyao NieXinhua LiuXin LiuZhe DongBo YunWenbin WeiFan XuJian LvMin LiShiqi LingLei ZhongJunhong ChenQishan ZhengLi ZhangYi XiangGang TanKai HuangYifan XiangDuoru LinXulin ZhangMeimei DongyeDongni WangWeirong ChenXiyang LiuHaotian LinYizhi LiuNature PortfolioarticleComputer applications to medicine. Medical informaticsR858-859.7ENnpj Digital Medicine, Vol 3, Iss 1, Pp 1-10 (2020) |
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DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
Computer applications to medicine. Medical informatics R858-859.7 |
| spellingShingle |
Computer applications to medicine. Medical informatics R858-859.7 Erping Long Jingjing Chen Xiaohang Wu Zhenzhen Liu Liming Wang Jiewei Jiang Wangting Li Yi Zhu Chuan Chen Zhuoling Lin Jing Li Xiaoyan Li Hui Chen Chong Guo Lanqin Zhao Daoyao Nie Xinhua Liu Xin Liu Zhe Dong Bo Yun Wenbin Wei Fan Xu Jian Lv Min Li Shiqi Ling Lei Zhong Junhong Chen Qishan Zheng Li Zhang Yi Xiang Gang Tan Kai Huang Yifan Xiang Duoru Lin Xulin Zhang Meimei Dongye Dongni Wang Weirong Chen Xiyang Liu Haotian Lin Yizhi Liu Artificial intelligence manages congenital cataract with individualized prediction and telehealth computing |
| description |
Abstract A challenge of chronic diseases that remains to be solved is how to liberate patients and medical resources from the burdens of long-term monitoring and periodic visits. Precise management based on artificial intelligence (AI) holds great promise; however, a clinical application that fully integrates prediction and telehealth computing has not been achieved, and further efforts are required to validate its real-world benefits. Taking congenital cataract as a representative, we used Bayesian and deep-learning algorithms to create CC-Guardian, an AI agent that incorporates individualized prediction and scheduling, and intelligent telehealth follow-up computing. Our agent exhibits high sensitivity and specificity in both internal and multi-resource validation. We integrate our agent with a web-based smartphone app and prototype a prediction-telehealth cloud platform to support our intelligent follow-up system. We then conduct a retrospective self-controlled test validating that our system not only accurately detects and addresses complications at earlier stages, but also reduces the socioeconomic burdens compared to conventional methods. This study represents a pioneering step in applying AI to achieve real medical benefits and demonstrates a novel strategy for the effective management of chronic diseases. |
| format |
article |
| author |
Erping Long Jingjing Chen Xiaohang Wu Zhenzhen Liu Liming Wang Jiewei Jiang Wangting Li Yi Zhu Chuan Chen Zhuoling Lin Jing Li Xiaoyan Li Hui Chen Chong Guo Lanqin Zhao Daoyao Nie Xinhua Liu Xin Liu Zhe Dong Bo Yun Wenbin Wei Fan Xu Jian Lv Min Li Shiqi Ling Lei Zhong Junhong Chen Qishan Zheng Li Zhang Yi Xiang Gang Tan Kai Huang Yifan Xiang Duoru Lin Xulin Zhang Meimei Dongye Dongni Wang Weirong Chen Xiyang Liu Haotian Lin Yizhi Liu |
| author_facet |
Erping Long Jingjing Chen Xiaohang Wu Zhenzhen Liu Liming Wang Jiewei Jiang Wangting Li Yi Zhu Chuan Chen Zhuoling Lin Jing Li Xiaoyan Li Hui Chen Chong Guo Lanqin Zhao Daoyao Nie Xinhua Liu Xin Liu Zhe Dong Bo Yun Wenbin Wei Fan Xu Jian Lv Min Li Shiqi Ling Lei Zhong Junhong Chen Qishan Zheng Li Zhang Yi Xiang Gang Tan Kai Huang Yifan Xiang Duoru Lin Xulin Zhang Meimei Dongye Dongni Wang Weirong Chen Xiyang Liu Haotian Lin Yizhi Liu |
| author_sort |
Erping Long |
| title |
Artificial intelligence manages congenital cataract with individualized prediction and telehealth computing |
| title_short |
Artificial intelligence manages congenital cataract with individualized prediction and telehealth computing |
| title_full |
Artificial intelligence manages congenital cataract with individualized prediction and telehealth computing |
| title_fullStr |
Artificial intelligence manages congenital cataract with individualized prediction and telehealth computing |
| title_full_unstemmed |
Artificial intelligence manages congenital cataract with individualized prediction and telehealth computing |
| title_sort |
artificial intelligence manages congenital cataract with individualized prediction and telehealth computing |
| publisher |
Nature Portfolio |
| publishDate |
2020 |
| url |
https://doaj.org/article/737f5b0004e146a7bec22cf2d79b21a2 |
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