Transformative biomechanics and mechanobiology breakthroughs shaping the future of health and medicine

Long Li; Jing Ji; He Ren; Lilan Gao; Xiaona Li; Ning Li; Songbai Zhang; Kai Tang; Zedong Li; Weiyan Ren; Qing ping Yao; Kai Huang; He Gong; Yingfeng Shao; Xianglong Lin; Xin Wang; Xiuqing Qian; Jie Song; Yiran Jiang; Hui Chen; Bo Che; Dongyuan Lü; Yu Du; Fan Feng; Yanli Liu; Yan Li; Meiying Luo; Ruotian Du; Cunyu Zhang; Guanshuo Hu; Yufei Ma; Shutong Wang; Rui Yang; Fang Pu; Bingjie Xiang; Ming Zhang; Xinghua Shi; Lizhen Wang; Bo Li; Damir Kračun; Qian Chen; Ahmed Elsheikh; Zi Jun Liu; Baoyu Liu; Chuanrong Zhao; Yonggang Lü; Zhu Zeng; Zhiyong Li; Yiyao Liu; Guixue Wang; Wenchang Tan; Chunqiu Zhang; Min Zhang; Jizhong Lou; Youhua Tan; Linhong Deng; Mian Long; Ying Xin Qi; Weiyi Chen; Feng Xu; Yubo Fan; Fan Song

doi:10.1016/j.xinn.2026.101307

Transformative biomechanics and mechanobiology breakthroughs shaping the future of health and medicine

Long Li
, Jing Ji
, He Ren
, Lilan Gao
, Xiaona Li
, Ning Li
, Songbai Zhang
, Kai Tang
, Zedong Li
, Weiyan Ren
, Qing ping Yao
, Kai Huang
, He Gong
, Yingfeng Shao
, Xianglong Lin
, Xin Wang
, Xiuqing Qian
, Jie Song
, Yiran Jiang
, Hui Chen

Bo Che, Dongyuan Lü, Yu Du, Fan Feng, Yanli Liu, Yan Li, Meiying Luo, Ruotian Du, Cunyu Zhang, Guanshuo Hu, Yufei Ma, Shutong Wang, Rui Yang, Fang Pu, Bingjie Xiang, Ming Zhang, Xinghua Shi, Lizhen Wang, Bo Li, Damir Kračun, Qian Chen, Ahmed Elsheikh, Zi Jun Liu, Baoyu Liu, Chuanrong Zhao, Yonggang Lü, Zhu Zeng, Zhiyong Li, Yiyao Liu, Guixue Wang, Wenchang Tan, Chunqiu Zhang^*, Min Zhang^*, Jizhong Lou^*, Youhua Tan^*, Linhong Deng^*, Mian Long^*, Ying Xin Qi^*, Weiyi Chen^*, Feng Xu^*, Yubo Fan^*, Fan Song^*

^*此作品的通讯作者

CAS - Institute of Mechanics
University of Chinese Academy of Sciences
Beihang University
Tianjin University of Technology
Taiyuan University of Technology
Air Force Medical University
Hong Kong Polytechnic University
Xi'an Jiaotong University
Shanghai Jiao Tong University
Capital Medical University
CAS - Institute of Biophysics
Changzhou University
National Center for Nanoscience and Technology
Tsinghua University
University Clinic Balgrist
ETH Zurich - Institute for Particle Physics and Astrophysics (IPA)
Brown University
University of Liverpool
Moorfields Eye Hospital NHS Foundation Trust
University of Washington
University of Utah
Chongqing University
Wuhan Textile University
Guizhou Medical University
Ningbo University
University of Electronic Science and Technology of China
Chengdu University of Traditional Chinese Medicine
Peking University

科研成果: 期刊稿件 › 文献综述 › 同行评审

摘要

The mechanical environments endured by the human body profoundly influence life activities across different scales, from single molecules to complicated systems. Gaining insight into the mechanical factors and their biological implications is crucial for deciphering physiological and pathological processes and advancing innovations in drug development and therapeutic approaches for various diseases. Recently, we have witnessed rapid advances in biomechanics and mechanobiology, which, however, are not fully recognized by the clinical community and effectively integrated into medical decision-making, highlighting a translational gap between mechano-based discovery and therapeutic application. Here, we first provide a comprehensive review of research progress in biomechanics and mechanobiology, focusing on key areas such as the cardiovascular system, bone and joints, ocular tissues, liver, lung, the craniomandibular system, cancer, and immunology. We demonstrate how mechanical cues drive health and disease across biological levels, offering insights into complex physiological and pathological mechanisms. Further, we explore the diverse applications of biomechanics and mechanobiology in disease diagnosis, treatment, and rehabilitation. Mechanical insights fuel medical innovations through advanced diagnostic tools, novel therapies, and effective rehabilitation protocols, enhancing clinical outcomes. Looking ahead, we outline future directions of biomechanics and mechanobiology, emphasizing interdisciplinary integration, artificial intelligence, model development, and extreme environments, which hold the promise to deepen scientific understanding and propel technological innovations. This review highlights the transformative potential of biomechanics and mechanobiology in driving scientific and clinical advancements and helps bridge the long-standing gap between biomechanical research and clinical practice.

源语言	英语
文章编号	101307
期刊	Innovation
卷	7
期	4
DOI	https://doi.org/10.1016/j.xinn.2026.101307
出版状态	已出版 - 6 4月 2026

联合国可持续发展目标

此成果有助于实现下列可持续发展目标：

可持续发展目标 3 良好健康与福祉

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10.1016/j.xinn.2026.101307

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链接到 Scopus 的出版物

引用此

Li, L., Ji, J., Ren, H., Gao, L., Li, X., Li, N., Zhang, S., Tang, K., Li, Z., Ren, W., Yao, Q. P., Huang, K., Gong, H., Shao, Y., Lin, X., Wang, X., Qian, X., Song, J., Jiang, Y., ... Song, F. (2026). Transformative biomechanics and mechanobiology breakthroughs shaping the future of health and medicine. Innovation, 7(4), 文章 101307. https://doi.org/10.1016/j.xinn.2026.101307

@article{36c2c1a97e334529aa11014e3b55e3b0,

title = "Transformative biomechanics and mechanobiology breakthroughs shaping the future of health and medicine",

abstract = "The mechanical environments endured by the human body profoundly influence life activities across different scales, from single molecules to complicated systems. Gaining insight into the mechanical factors and their biological implications is crucial for deciphering physiological and pathological processes and advancing innovations in drug development and therapeutic approaches for various diseases. Recently, we have witnessed rapid advances in biomechanics and mechanobiology, which, however, are not fully recognized by the clinical community and effectively integrated into medical decision-making, highlighting a translational gap between mechano-based discovery and therapeutic application. Here, we first provide a comprehensive review of research progress in biomechanics and mechanobiology, focusing on key areas such as the cardiovascular system, bone and joints, ocular tissues, liver, lung, the craniomandibular system, cancer, and immunology. We demonstrate how mechanical cues drive health and disease across biological levels, offering insights into complex physiological and pathological mechanisms. Further, we explore the diverse applications of biomechanics and mechanobiology in disease diagnosis, treatment, and rehabilitation. Mechanical insights fuel medical innovations through advanced diagnostic tools, novel therapies, and effective rehabilitation protocols, enhancing clinical outcomes. Looking ahead, we outline future directions of biomechanics and mechanobiology, emphasizing interdisciplinary integration, artificial intelligence, model development, and extreme environments, which hold the promise to deepen scientific understanding and propel technological innovations. This review highlights the transformative potential of biomechanics and mechanobiology in driving scientific and clinical advancements and helps bridge the long-standing gap between biomechanical research and clinical practice.",

keywords = "Mechanics, biomechanics, mechanobiology, mechanodiagnosis, mechanotherapy, rehabilitation engineering",

author = "Long Li and Jing Ji and He Ren and Lilan Gao and Xiaona Li and Ning Li and Songbai Zhang and Kai Tang and Zedong Li and Weiyan Ren and Yao, \{Qing ping\} and Kai Huang and He Gong and Yingfeng Shao and Xianglong Lin and Xin Wang and Xiuqing Qian and Jie Song and Yiran Jiang and Hui Chen and Bo Che and Dongyuan L{\"u} and Yu Du and Fan Feng and Yanli Liu and Yan Li and Meiying Luo and Ruotian Du and Cunyu Zhang and Guanshuo Hu and Yufei Ma and Shutong Wang and Rui Yang and Fang Pu and Bingjie Xiang and Ming Zhang and Xinghua Shi and Lizhen Wang and Bo Li and Damir Kra{\v c}un and Qian Chen and Ahmed Elsheikh and Liu, \{Zi Jun\} and Baoyu Liu and Chuanrong Zhao and Yonggang L{\"u} and Zhu Zeng and Zhiyong Li and Yiyao Liu and Guixue Wang and Wenchang Tan and Chunqiu Zhang and Min Zhang and Jizhong Lou and Youhua Tan and Linhong Deng and Mian Long and Qi, \{Ying Xin\} and Weiyi Chen and Feng Xu and Yubo Fan and Fan Song",

note = "Publisher Copyright: {\textcopyright} 2026 The Author(s). Published by Elsevier Inc. on behalf of Youth Innovation Co., Ltd. This is an open access article under the CC BY license. http://creativecommons.org/licenses/by/4.0/",

year = "2026",

month = apr,

day = "6",

doi = "10.1016/j.xinn.2026.101307",

language = "英语",

volume = "7",

journal = "Innovation",

issn = "2666-6758",

publisher = "Cell Press",

number = "4",

}

Li, L, Ji, J, Ren, H, Gao, L, Li, X, Li, N, Zhang, S, Tang, K, Li, Z, Ren, W, Yao, QP, Huang, K, Gong, H, Shao, Y, Lin, X, Wang, X, Qian, X, Song, J, Jiang, Y, Chen, H, Che, B, Lü, D, Du, Y, Feng, F, Liu, Y, Li, Y, Luo, M, Du, R, Zhang, C, Hu, G, Ma, Y, Wang, S, Yang, R, Pu, F, Xiang, B, Zhang, M, Shi, X, Wang, L, Li, B, Kračun, D, Chen, Q, Elsheikh, A, Liu, ZJ, Liu, B, Zhao, C, Lü, Y, Zeng, Z, Li, Z, Liu, Y, Wang, G, Tan, W, Zhang, C, Zhang, M, Lou, J, Tan, Y, Deng, L, Long, M, Qi, YX, Chen, W, Xu, F, Fan, Y & Song, F 2026, 'Transformative biomechanics and mechanobiology breakthroughs shaping the future of health and medicine', Innovation, 卷 7, 号码 4, 101307. https://doi.org/10.1016/j.xinn.2026.101307

TY - JOUR

T1 - Transformative biomechanics and mechanobiology breakthroughs shaping the future of health and medicine

AU - Li, Long

AU - Ji, Jing

AU - Ren, He

AU - Gao, Lilan

AU - Li, Xiaona

AU - Li, Ning

AU - Zhang, Songbai

AU - Tang, Kai

AU - Li, Zedong

AU - Ren, Weiyan

AU - Yao, Qing ping

AU - Huang, Kai

AU - Gong, He

AU - Shao, Yingfeng

AU - Lin, Xianglong

AU - Wang, Xin

AU - Qian, Xiuqing

AU - Song, Jie

AU - Jiang, Yiran

AU - Chen, Hui

AU - Che, Bo

AU - Lü, Dongyuan

AU - Du, Yu

AU - Feng, Fan

AU - Liu, Yanli

AU - Li, Yan

AU - Luo, Meiying

AU - Du, Ruotian

AU - Zhang, Cunyu

AU - Hu, Guanshuo

AU - Ma, Yufei

AU - Wang, Shutong

AU - Yang, Rui

AU - Pu, Fang

AU - Xiang, Bingjie

AU - Zhang, Ming

AU - Shi, Xinghua

AU - Wang, Lizhen

AU - Li, Bo

AU - Kračun, Damir

AU - Chen, Qian

AU - Elsheikh, Ahmed

AU - Liu, Zi Jun

AU - Liu, Baoyu

AU - Zhao, Chuanrong

AU - Lü, Yonggang

AU - Zeng, Zhu

AU - Li, Zhiyong

AU - Liu, Yiyao

AU - Wang, Guixue

AU - Tan, Wenchang

AU - Zhang, Chunqiu

AU - Zhang, Min

AU - Lou, Jizhong

AU - Tan, Youhua

AU - Deng, Linhong

AU - Long, Mian

AU - Qi, Ying Xin

AU - Chen, Weiyi

AU - Xu, Feng

AU - Fan, Yubo

AU - Song, Fan

N1 - Publisher Copyright: © 2026 The Author(s). Published by Elsevier Inc. on behalf of Youth Innovation Co., Ltd. This is an open access article under the CC BY license. http://creativecommons.org/licenses/by/4.0/

PY - 2026/4/6

Y1 - 2026/4/6

N2 - The mechanical environments endured by the human body profoundly influence life activities across different scales, from single molecules to complicated systems. Gaining insight into the mechanical factors and their biological implications is crucial for deciphering physiological and pathological processes and advancing innovations in drug development and therapeutic approaches for various diseases. Recently, we have witnessed rapid advances in biomechanics and mechanobiology, which, however, are not fully recognized by the clinical community and effectively integrated into medical decision-making, highlighting a translational gap between mechano-based discovery and therapeutic application. Here, we first provide a comprehensive review of research progress in biomechanics and mechanobiology, focusing on key areas such as the cardiovascular system, bone and joints, ocular tissues, liver, lung, the craniomandibular system, cancer, and immunology. We demonstrate how mechanical cues drive health and disease across biological levels, offering insights into complex physiological and pathological mechanisms. Further, we explore the diverse applications of biomechanics and mechanobiology in disease diagnosis, treatment, and rehabilitation. Mechanical insights fuel medical innovations through advanced diagnostic tools, novel therapies, and effective rehabilitation protocols, enhancing clinical outcomes. Looking ahead, we outline future directions of biomechanics and mechanobiology, emphasizing interdisciplinary integration, artificial intelligence, model development, and extreme environments, which hold the promise to deepen scientific understanding and propel technological innovations. This review highlights the transformative potential of biomechanics and mechanobiology in driving scientific and clinical advancements and helps bridge the long-standing gap between biomechanical research and clinical practice.

AB - The mechanical environments endured by the human body profoundly influence life activities across different scales, from single molecules to complicated systems. Gaining insight into the mechanical factors and their biological implications is crucial for deciphering physiological and pathological processes and advancing innovations in drug development and therapeutic approaches for various diseases. Recently, we have witnessed rapid advances in biomechanics and mechanobiology, which, however, are not fully recognized by the clinical community and effectively integrated into medical decision-making, highlighting a translational gap between mechano-based discovery and therapeutic application. Here, we first provide a comprehensive review of research progress in biomechanics and mechanobiology, focusing on key areas such as the cardiovascular system, bone and joints, ocular tissues, liver, lung, the craniomandibular system, cancer, and immunology. We demonstrate how mechanical cues drive health and disease across biological levels, offering insights into complex physiological and pathological mechanisms. Further, we explore the diverse applications of biomechanics and mechanobiology in disease diagnosis, treatment, and rehabilitation. Mechanical insights fuel medical innovations through advanced diagnostic tools, novel therapies, and effective rehabilitation protocols, enhancing clinical outcomes. Looking ahead, we outline future directions of biomechanics and mechanobiology, emphasizing interdisciplinary integration, artificial intelligence, model development, and extreme environments, which hold the promise to deepen scientific understanding and propel technological innovations. This review highlights the transformative potential of biomechanics and mechanobiology in driving scientific and clinical advancements and helps bridge the long-standing gap between biomechanical research and clinical practice.

KW - Mechanics

KW - biomechanics

KW - mechanobiology

KW - mechanodiagnosis

KW - mechanotherapy

KW - rehabilitation engineering

UR - https://www.scopus.com/pages/publications/105034733460

U2 - 10.1016/j.xinn.2026.101307

DO - 10.1016/j.xinn.2026.101307

M3 - 文献综述

AN - SCOPUS:105034733460

SN - 2666-6758

VL - 7

JO - Innovation

JF - Innovation

IS - 4

M1 - 101307

ER -

Transformative biomechanics and mechanobiology breakthroughs shaping the future of health and medicine

摘要

联合国可持续发展目标

访问文件

其它文件与链接

指纹

引用此