Department of Orthopedic Surgery, Rush University Medical Center, Chicago, IL 60612, USA.
J Biomech. 2012 Apr 5;45(6):990-6. doi: 10.1016/j.jbiomech.2012.01.015. Epub 2012 Jan 28.
Knee joint forces measured from instrumented implants provide important information for testing the validity of computational models that predict knee joint forces. The purpose of this study was to validate a parametric numerical model for predicting knee joint contact forces against measurements from four subjects with instrumented TKRs during the stance phase of gait. Model sensitivity to abnormal gait patterns was also investigated. The results demonstrated good agreement for three subjects with relatively normal gait patterns, where the difference between the mean measured and calculated forces ranged from 0.05 to 0.45 body weights, and the envelopes of measured and calculated forces (from three walking trials) overlapped. The fourth subject, who had a "quadriceps avoidance" external moment pattern, initially had little overlap between the measured and calculated force envelopes. When additional constraints were added, tailored to the subject's gait pattern, the model predictions improved to complete force envelope overlap. Coefficient of multiple determination analysis indicated that the shape of the measured and calculated force waveforms were similar for all subjects (adjusted coefficient of multiple correlation values between 0.88 and 0.92). The parametric model was accurate in predicting both the magnitude and waveform of the contact force, and the accuracy of model predictions was affected by deviations from normal gait patterns. Equally important, the envelope of forces generated by the range of solutions substantially overlapped with the corresponding measured envelope from multiple gait trials for a given subject, suggesting that the variable strategic processes of in vivo force generation are covered by the solution range of this parametric model.
从仪器植入物测量的膝关节力为测试预测膝关节力的计算模型的有效性提供了重要信息。本研究的目的是验证一种用于预测膝关节接触力的参数数值模型,该模型基于四个带有仪器化 TKR 的受试者在步态站立阶段的测量值。还研究了模型对异常步态模式的敏感性。结果表明,对于三个步态相对正常的受试者,模型的预测结果与测量值吻合较好,其中平均测量力与计算力之间的差异范围为 0.05 至 0.45 体重,且测量力和计算力的包络(来自三个行走试验)重叠。对于第四位有“股四头肌回避”外部力矩模式的受试者,测量力和计算力包络之间最初几乎没有重叠。当根据受试者的步态模式添加额外的约束条件时,模型预测得到了改善,实现了完全的力包络重叠。多决定系数分析表明,所有受试者的测量力和计算力波形形状相似(调整后的多相关系数值在 0.88 到 0.92 之间)。参数模型能够准确预测接触力的大小和波形,并且模型预测的准确性受到偏离正常步态模式的影响。同样重要的是,给定受试者的多个步态试验的力包络产生的解决方案范围与相应的测量力包络基本重叠,这表明体内力生成的可变策略过程被该参数模型的解决方案范围所涵盖。
