D'Lima Darryl D, Fregly Benjamin J, Colwell Clifford W
Arthritis Res Ther. 2013 Jan 31;15(1):203. doi: 10.1186/ar4138.
Stresses and strains are major factors influencing growth, remodeling and repair of musculoskeletal tissues. Therefore, knowledge of forces and deformation within bones and joints is critical to gain insight into the complex behavior of these tissues during development, aging, and response to injury and disease. Sensors have been used in vivo to measure strains in bone, intraarticular cartilage contact pressures, and forces in the spine, shoulder, hip, and knee. Implantable sensors have a high impact on several clinical applications, including fracture fixation, spine fixation, and joint arthroplasty. This review summarizes the developments in strain-measurement-based implantable sensor technology for musculoskeletal research.
应力和应变是影响肌肉骨骼组织生长、重塑和修复的主要因素。因此,了解骨骼和关节内的力和变形对于深入了解这些组织在发育、衰老以及对损伤和疾病的反应过程中的复杂行为至关重要。传感器已被用于体内测量骨应变、关节内软骨接触压力以及脊柱、肩部、髋部和膝部的力。可植入传感器对包括骨折固定、脊柱固定和关节置换术在内的多种临床应用具有重大影响。本综述总结了用于肌肉骨骼研究的基于应变测量的可植入传感器技术的发展情况。