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A generalized framework for determination of functional musculoskeletal joint coordinate systems.

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Establishing anatomical coordinate systems (CS) from anatomical landmarks is sensitive to landmark selection. Vastly different results can be obtained amongst observers which can greatly affect the resulting joint kinematics. The… Click to show full abstract

Establishing anatomical coordinate systems (CS) from anatomical landmarks is sensitive to landmark selection. Vastly different results can be obtained amongst observers which can greatly affect the resulting joint kinematics. The aim of this study is to introduce an objective method for calculating functional CS definitions for bones in joints that observe three-cylindrical-joint kinematic chain decomposition methods and to apply the method on tibiofemoral joint specimens. This method is driven by low resistance joint motion during loading profiles and not from anatomical landmark selection. Two anatomical CS definitions were established from points collected by five observers, for twelve knees. The knees underwent passive flexion and internal/external rotation using the anatomical CSs. The kinematics from these profiles were used in linear least squares minimization of off-axis motions to redefine the tibia and femur origins, the femur flexion axis and the tibia internal rotation axis. Significant improvements in reproducibility of 7.4 mm (tibia origin, p < 0.001), 3.4 mm (femur origin, p < 0.001), and 2.9° (femur FE-axis, p < 0.001) between the two functional CSs compared to the two anatomical CSs were observed. Functional CSs led to significant decreases in off-axis motion during discrete passive flexion profiles. This new strategy for establishing functional CSs provides an objective approach that will reduce the effects of observer error in establishing CSs. Additionally, functional CSs allow for better interpretations of kinematic responses due to loading because effects of kinematic cross-talk is minimized.

Keywords: generalized framework; coordinate systems; kinematics; css; functional css

Journal Title: Journal of biomechanics
Year Published: 2021

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