摘要
骨小梁是骨微结构的关键组成单元,其复杂的三维立体互联微观结构与骨骼力学性能密切相关。传统影像学研究多局限于骨小梁二维形态学分析,对其互联拓扑结构关注不足,难以全面反映骨质量特性。超高分辨率CT(U-HRCT)技术的发展为骨微结构三维成像带来革命性突破,其空间分辨率可达50μm,能够清晰显示骨小梁的精细立体结构,为在体评价骨小梁互联网络提供了技术基础。重视基于立体互联骨微结构的骨骼质量影像学评价,对于创新骨质疏松诊疗模式、提高骨折风险预测准确性具有重要意义。本文在系统梳理骨小梁立体互联微结构研究进展的基础上,重点述评了U-HRCT在骨微结构成像中的技术优势,分析了基于立体互联骨小梁网络评价的设备与技术可行性,提出了发展骨质量影像学评估新路径,构建反映互联拓扑特征的影像新参数,整合多层次信息建立骨质量评估新模型的发展方向。同时指出当前面临的标准化缺乏、成像时间长、数据处理复杂等挑战,强调临床转化仍需要内分泌、骨科学、影像组学、生物力学、AI等多学科交叉融合与协同推进。
Bone trabeculae are key components of bone microstructure,and their complex three-dimensional interconnected microarchitecture is closely related to bone mechanical properties.Traditional imaging studies have been mostly limited to two-dimensional morphological analysis of bone trabeculae,with insufficient attention paid to their interconnected topology,making it difficult to comprehensively reflect bone quality characteristics.The development of ultra-high resolution CT(U-HRCT)technology has brought revolutionary breakthroughs to three-dimensional imaging of bone microstructure.Its spatial resolution can reach up to 50μm,enabling clear visualization of the three-dimensional structure of bone trabeculae and providing a technical foundation for in vivo assessment of the interconnected trabecular network.Placing emphasis on imaging assessment of bone quality based on three-dimensional interconnected bone microstructure is of great significance for innovating the diagnosis and treatment paradigm of osteoporosis and improving the accuracy of fracture risk prediction.On the basis of systematically reviewing research progress on the three-dimensional interconnected microarchitecture of bone trabeculae,this article focuses on commenting on the technical advantages of U-HRCT in bone microstructure imaging,analyzes the equipment and technical feasibility of evaluation based on the three-dimensional interconnected trabecular network,proposes developing new pathways for bone quality imaging assessment,constructs novel imaging parameters that reflect interconnected topological features,and establishes new bone quality assessment models by integrating multi-level information.It also points out current challenges,including lack of standardization,lengthy imaging durations,and complex data processing,and emphasizes that clinical translation still requires multidisciplinary integration and collaborative advancement across endocrinology,orthopedics,radiomics,biomechanics,and AI.
作者
张鹏
李佳
管文敏
李书芳
夏维波
王振常
Zhang Peng;Li Jia;Guan Wenmin;Li Shufang;Xia Weibo;Wang Zhenchang(Department of Radiology,Beijing Friendship Hospital,Capital Medical University,Beijing 100050,China;School of Information and Communication Engineering,Beijing University of Posts and Telecommunications,Beijing 100876,China;Department of Endocrinology,Peking Union Medical College Hospital,Chinese Academy of Medical Sciences and Peking Union Medical College,Key Laboratory of Endocrinology of National Health Commission,Beijing 100730,China)
出处
《中华医学杂志》
北大核心
2025年第46期4220-4224,共5页
National Medical Journal of China
基金
国家自然科学基金(61527807,82302182)。
关键词
骨骼
骨小梁
立体互联微结构
超高分辨率CT
骨质量
影像组学
骨强度
Skeleton
Bone trabecula
Three-dimensional interconnected microstructure
Ultra-high resolution CT
Bone quality
Radiomics
Bone strength
