首都医科大学学报 ›› 2024, Vol. 45 ›› Issue (4): 561-565.doi: 10.3969/j.issn.1006-7795.2024.04.001

• 院士学者风采 • 上一篇    下一篇

追光逐影,医信融通的开拓者———中国工程院院士王振常教授

王  昊,  赵鹏飞,  吕  晗,  张  鹏   

  1. 首都医科大学附属北京友谊医院放射科,北京 100050
  • 收稿日期:2024-04-26 出版日期:2024-08-21 发布日期:2024-07-08

A pioneer promotes integration of medicine and information technology, shedding light on medical imaging—Professor Wang Zhenchang, academician of Chinese Academy of Engineering

Wang Hao,  Zhao Pengfei,  Lyu Han,  Zhang Peng   

  1. Department of Radiology, Beijing Friendship Hospital, Capital Medical University, Beijing 100050, China
  • Received:2024-04-26 Online:2024-08-21 Published:2024-07-08

摘要: 王振常院士是中国卫生学界首位中国工程院信息与电子工程学部院士,是我国听觉和视觉系统影像感知与解析领域的带头人,长期从事生理病理信息探测感知技术及仪器的科学研究。学术成果主要包括:1)突破传统影像学依靠单一结构信息诊断的局限,建立人体复杂系统影像多模式多维度协同与生理病理多要素信息关联诊断体系,形成新范式,并由此创建听觉传导通路多要素协同感知方法,进而阐明搏动性耳鸣病症机制和诱因,引领了该方向的国际前沿研究;2)突破人体微小结构无法精确辨识的难题,主持研制全球首台分辨尺度达 50 μm 的骨质专用电子计算机断层扫描(computed tomography, CT)仪器,实现信息获取能力从亚毫米级到十微米级的跨越,成功探索出专而精的国产CT仪器高性能发展新路径。3)基于信息技术与医学的交叉融合,实现听视觉系统微小病症检出效能的大幅跃升,带动了医学影像学重构。多项研究成果被选入国际共识、教科书及全国统编教材,并在行业中普及应用,惠及亿万患者。


关键词: 信息, 医学影像学, 骨质专用CT, 视觉

Abstract: Professor Wang Zhenchang is the first academician of the Information and Electronic Engineering Division of the Chinese Academy of Engineering in the health field. As a leading figure in the field of image perception and analysis of auditory and visual systems, He has long been engaged in scientific research of physiological and pathological information detection, perception technology, and instruments. His major academic achievements include: ①Breaking through the limitations of traditional imaging relying on single-structure information diagnosis, he established a new paradigm for a multi-modal and multi-dimensional coordinated diagnostic system for complex human system images and a physiological-pathological multi-element information correlation diagnosis system. Further, he created a multi-element coordinated perception method for auditory conduction pathways to clarify the mechanism and causes of pulsatile tinnitus, which led international frontier research in this direction. ②Overcoming the difficulty of accurately identifying tiny human structures, he was in charge of the development of the world's first bone-specific computed tomography (CT) instrument with a resolution of 50 μm, promoting information acquisition capability from sub-millimeter to tens of micrometers. This successfully explored a new high-performance development path for specialized and refined domestic CT instruments. ③ Based on the integration of information technology and medicine, he significantly improved the detection efficiency of small lesions in the auditory and visual systems and advanced the reconstruction of medical imaging. Many of his research results have been included in international consensus, textbooks, and national unified teaching materials, and it has also been widely applied in the clinical practice, beneficial to hundreds of millions of patients.


Key words: information, medical imaging, bone specific CT, auditory and visual sensation

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