The realm of basic and clinical research on biomechanical properties of joints, ligaments, tendons, and related structures is a vital domain within musculoskeletal science. This field delves into understanding the mechanical behaviors of these anatomical components, investigating their structural integrity, load-bearing capacities, and responses to various forces. Researchers aim to unravel the intricate biomechanics governing human movement and stability, providing insights into injury mechanisms, healing processes, and potential interventions. By employing advanced imaging techniques, computational modeling, and experimental analyses, scientists seek to enhance our comprehension of musculoskeletal function in health and disease. This research not only contributes to orthopedic advancements but also informs therapeutic strategies, prosthetic design, and rehabilitation protocols, ultimately fostering improvements in patient outcomes and quality of life.The Research Topic aims to confront the challenge of comprehensively understanding the biomechanical properties of joints, ligaments, tendons, and related structures for advancements in musculoskeletal health. Existing knowledge gaps hinder precise prediction and prevention of musculoskeletal injuries, impeding the optimization of rehabilitation and treatment. A multidisciplinary approach, integrating biomechanics, imaging, and computational modeling, is crucial. Basic research will document mechanical changes under physiological and pathological conditions, encompassing treatment protocols. Clinical studies will investigate substances, exercises, physiotherapy, and surgical interventions on mechanical properties, including changes post-ligament reconstruction or joint replacement. This approach also examines the alignment and wear effects of joint prostheses and evaluates the influence of robotic surgery on joints and associated soft tissues. Such research can lead to innovative diagnostic tools, personalized treatments, and targeted interventions for improved musculoskeletal health.The scope of the Research Topic encompasses various themes within the biomechanical properties of joints, ligaments, tendons, and related structures, focusing on advancing musculoskeletal health. Contributors are encouraged to explore:1. Biomechanics of Musculoskeletal Structures: Investigate the mechanical behaviors of joints, ligaments, tendons, and associated structures under both physiological and pathological conditions.2. Injury Mechanisms and Prevention: Examine the factors contributing to musculoskeletal injuries and propose preventive strategies based on biomechanical insights.3. Treatment Protocols and Interventions: Evaluate the impact of substances, exercises, physiotherapy, and surgical interventions on the mechanical properties of musculoskeletal structures.4. Clinical Applications: Explore the effects of ligament reconstruction, joint replacement surgery, and robotic surgery on the biomechanics of joints and associated soft tissues.5. Diagnostic Tools and Imaging Techniques: Develop and assess innovative diagnostic tools and imaging modalities to enhance our understanding of musculoskeletal biomechanics.Manuscript types of interest include original research articles, review papers, case studies, and computational modeling studies. Contributions employing interdisciplinary approaches, integrating biomechanics with fields like imaging, computational modeling, and clinical studies, are particularly encouraged. The aim is to create a comprehensive collection of research that advances our knowledge of musculoskeletal biomechanics and informs practical applications for improved patient outcomes and musculoskeletal health.
The realm of basic and clinical research on biomechanical properties of joints, ligaments, tendons, and related structures is a vital domain within musculoskeletal science. This field delves into understanding the mechanical behaviors of these anatomical components, investigating their structural integrity, load-bearing capacities, and responses to various forces. Researchers aim to unravel the intricate biomechanics governing human movement and stability, providing insights into injury mechanisms, healing processes, and potential interventions. By employing advanced imaging techniques, computational modeling, and experimental analyses, scientists seek to enhance our comprehension of musculoskeletal function in health and disease. This research not only contributes to orthopedic advancements but also informs therapeutic strategies, prosthetic design, and rehabilitation protocols, ultimately fostering improvements in patient outcomes and quality of life.The Research Topic aims to confront the challenge of comprehensively understanding the biomechanical properties of joints, ligaments, tendons, and related structures for advancements in musculoskeletal health. Existing knowledge gaps hinder precise prediction and prevention of musculoskeletal injuries, impeding the optimization of rehabilitation and treatment. A multidisciplinary approach, integrating biomechanics, imaging, and computational modeling, is crucial. Basic research will document mechanical changes under physiological and pathological conditions, encompassing treatment protocols. Clinical studies will investigate substances, exercises, physiotherapy, and surgical interventions on mechanical properties, including changes post-ligament reconstruction or joint replacement. This approach also examines the alignment and wear effects of joint prostheses and evaluates the influence of robotic surgery on joints and associated soft tissues. Such research can lead to innovative diagnostic tools, personalized treatments, and targeted interventions for improved musculoskeletal health.The scope of the Research Topic encompasses various themes within the biomechanical properties of joints, ligaments, tendons, and related structures, focusing on advancing musculoskeletal health. Contributors are encouraged to explore:1. Biomechanics of Musculoskeletal Structures: Investigate the mechanical behaviors of joints, ligaments, tendons, and associated structures under both physiological and pathological conditions.2. Injury Mechanisms and Prevention: Examine the factors contributing to musculoskeletal injuries and propose preventive strategies based on biomechanical insights.3. Treatment Protocols and Interventions: Evaluate the impact of substances, exercises, physiotherapy, and surgical interventions on the mechanical properties of musculoskeletal structures.4. Clinical Applications: Explore the effects of ligament reconstruction, joint replacement surgery, and robotic surgery on the biomechanics of joints and associated soft tissues.5. Diagnostic Tools and Imaging Techniques: Develop and assess innovative diagnostic tools and imaging modalities to enhance our understanding of musculoskeletal biomechanics.Manuscript types of interest include original research articles, review papers, case studies, and computational modeling studies. Contributions employing interdisciplinary approaches, integrating biomechanics with fields like imaging, computational modeling, and clinical studies, are particularly encouraged. The aim is to create a comprehensive collection of research that advances our knowledge of musculoskeletal biomechanics and informs practical applications for improved patient outcomes and musculoskeletal health.