机构地区:[1]内蒙古医科大学附属医院影像诊断科,内蒙古自治区呼和浩特市010010 [2]内蒙古医科大学研究生院,内蒙古自治区呼和浩特市010010
出 处:《中国组织工程研究》2025年第15期3253-3261,共9页Chinese Journal of Tissue Engineering Research
基 金:内蒙古自治区卫生健康科技项目(202201266),项目负责人:金凤;内蒙古医科大学联合项目(YKD2021LH008),项目负责人:金凤。
摘 要:背景:有限元分析是一种先进的计算机工程技术,利用数学近似的方法对真实人体进行模拟,可以真实反映膝关节结构内部的生物力学特征,为理解膝关节疾病发病机制、优化手术方案以及开发新型植入材料提供了有效的工具。目的:对膝关节有限元模型的建立及其在膝关节疾病研究中的应用进行综述,并展望了未来的发展趋势。方法:第一作者于2024年4月以“Finite Element Analysis,FEA,knee joint,Finite Element Model,Knee Biomechanics,Knee Osteoarthritis,Knee Prosthesis,Knee Ligaments,Meniscus”为英文检索词在PubMed和EI数据库进行检索,以“有限元分析,有限元模型,膝关节,生物力学,骨关节炎,计算模型,膝关节假体,膝关节韧带,半月板”为中文检索词在中国知网和万方数据库进行检索,最终纳入75篇文献进行分析。结果与结论:①有限元分析法利用医学影像数据获得三维人体模型,将复杂的人体关节结构简化为有限且相互连接的单元,通过对模型施加外部载荷,直观地显示膝关节内部的应力分布。②研究者通过有限元分析深入研究膝关节在不同工况下的内部应力和应变分布,可发现膝关节内部载荷分配平衡改变时,关节软骨的过度载荷及部分区域的负荷下降,这种长期异常应力会引起软骨变形和磨损,最终缺失,对于理解生物力学因素如何引起膝关节退行性变至关重要。③有研究通过有限元分析评估膝骨关节炎患者采用太极拳、步态调整等物理治疗方法的效果,结果显示这些治疗方法减少了软骨的过度负荷,为临床治疗提供了科学理论依据。④临床医生通过有限元分析在手术前进行三维重建、数据测量和模拟手术,能够优化手术治疗策略;此外,还可以通过模拟不同假体的力学特征,改进假体的形状、材料和固定方式,减少患者的并发症,提高患者的治疗效果。⑤人工智能与有限元分析相结合使�BACKGROUND:Finite element analysis is an advanced computer-based engineering technique that uses mathematical approximations to simulate the human body.This method accurately reflects the biomechanical characteristics within the knee,providing a powerful tool for understanding knee disease pathogenesis,optimizing surgical protocols,and developing new implant materials.OBJECTIVE:To review the establishment of finite element modelling of the knee joint and its application in the study of knee joint diseases,and look forward to the future development trend.METHODS:The first author searched the PubMed and EI databases in April 2024 by applying a computer with English search terms“finite element analysis,FEA,knee joint,finite element model,knee biomechanics,knee osteoarthritis,knee prosthesis,knee ligaments,meniscus”and searched CNKI and WanFang databases with Chinese search terms“finite element analysis,finite element model,knee joint,biomechanics,osteoarthritis,computational model,knee prosthesis,knee ligament,meniscus.”Finally,75 papers were included in the analysis.RESULTS AND CONCLUSION:(1)Finite element analysis method uses medical imaging data to obtain a three-dimensional human model,simplifies the complex human joint structure into finite and interconnected units,and visually displays the internal stress distribution of the knee joint by applying external loads to the model.(2)The researchers deeply study the internal stress and strain distribution of the knee joint under different working conditions by means of finite element analysis,revealing the overloading of the articular cartilage and the decrease of load in some areas when the balance of the internal load distribution of the knee joint is changed,and that such long-term abnormal stresses cause deformation,wear and tear,and eventual loss of cartilage,which is crucial for understanding how biomechanical factors cause degenerative changes of the knee joint.(3)The effect of physical therapy methods such as Tai Chi and gait adjustment in patients w
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