The foot and ankle complex as a four degrees-of-freedom system: Kinematic coupling among the foot bones

IF 2.1 3区 医学 Q2 ORTHOPEDICS
Michele Conconi, Nicola Sancisi, Alberto Leardini, Claudio Belvedere
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引用次数: 0

Abstract

Seventy-eight parameters are theoretically needed to describe the relative position and orientation of all the 14 bones in the foot and ankle with respect to a reference bone (foot posture). However, articular contacts and soft tissues introduce kinematic coupling, reducing the number of the foot degrees-of-freedom (DOF). This study aims at providing quantification and definition of these couplings. The foot posture was measured in vitro through a series of computed tomography scans, spanning the whole range of foot dorsi/plantar flexion and pronation/supination, also considering the effect of weightbearing. The envelope of foot postures was investigated by means of principal component analysis. The foot and ankle motion were well described with four principal sets of kinematic couplings, that is, synergies. One synergy covers the independent motion of the ankle, while three synergies describe the foot motion. The first foot synergy shows all the bones rotating approximatively about a common axis, mapping the foot abduction/adduction about the Chopart joint. The second foot synergy results in a spherical motion, whose center is located between lateral cuneiform and navicular bone, mapping the foot pronation/supination. The third foot synergy maps the opening of the foot arches during the load acceptance. The foot and ankle complex can thus be described as a four DOF system, whose motion is the result of the linear combination of four synergies. Significance: Synergies reveal the contribution of each bone to the three-dimensional foot posture, providing a compact representation of the motion of the foot and ankle complex, improving the comprehension of its physiology.

足踝复合体是一个四自由度系统:脚骨之间的运动耦合。
理论上需要 78 个参数来描述足部和踝部所有 14 块骨骼相对于参考骨骼(足部姿势)的相对位置和方向。然而,关节接触和软组织引入了运动耦合,减少了足部自由度(DOF)的数量。本研究旨在对这些耦合进行量化和定义。通过一系列计算机断层扫描对足部姿势进行了体外测量,测量范围包括足背屈/跖屈和前屈/上举,同时还考虑了负重的影响。通过主成分分析对足部姿势的包络进行了研究。脚和踝关节的运动通过四组主运动耦合(即协同作用)得到了很好的描述。一个协同作用涵盖了脚踝的独立运动,而三个协同作用则描述了脚的运动。第一种足部协同作用显示所有骨骼近似围绕一个共同轴线旋转,映射出足部围绕肖巴特关节的外展/内收运动。第二个足部协同作用产生一个球形运动,其中心位于外侧楔骨和舟骨之间,映射出足部的前屈/后伸。第三个足部协同作用映射出足弓在接受负荷时的张开。因此,足踝复合体可被描述为一个四 DOF 系统,其运动是四个协同作用线性组合的结果。意义重大:协同作用揭示了每块骨骼对三维足部姿势的贡献,为足踝复合体的运动提供了一个紧凑的表示方法,从而提高了对足踝复合体生理学的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Orthopaedic Research®
Journal of Orthopaedic Research® 医学-整形外科
CiteScore
6.10
自引率
3.60%
发文量
261
审稿时长
3-6 weeks
期刊介绍: The Journal of Orthopaedic Research is the forum for the rapid publication of high quality reports of new information on the full spectrum of orthopaedic research, including life sciences, engineering, translational, and clinical studies.
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