Division of Sports Medicine, Department of Orthopaedic Surgery, Stanford University School of Medicine, USA; Wolf Orthopaedic Biomechanics Laboratory, Fowler Kennedy Sport Medicine Clinic, The University of Western Ontario, Canada.
Gait Posture. 2011 May;34(1):44-8. doi: 10.1016/j.gaitpost.2011.03.008. Epub 2011 Apr 17.
The trajectories of skin-mounted markers tracked with optical motion capture are assumed to be an adequate representation of the underlying bone motions. However, it is well known that soft tissue artifact (STA) exists between marker and bone. This study quantifies the STA associated with the hindfoot and midfoot marker clusters of a multi-segment foot model. To quantify STA of the hindfoot and midfoot marker clusters with respect to the calcaneus and navicular respectively, fluoroscopic images were collected on 27 subjects during four quasi-static positions, (1) quiet standing (non-weight bearing), (2) at heel strike (weight-bearing), (3) at midstance (weight-bearing) and (4) at toe-off (weight-bearing). The translation and rotation components of STA were calculated in the sagittal plane. Translational STA at the calcaneus varied from 5.9±7.3mm at heel-strike to 12.1±0.3mm at toe-off. For the navicular the translational STA ranged from 7.6±7.6mm at heel strike to 16.4±16.7mm at toe-off. Rotational STA was relatively smaller for both bones at all foot positions. For the calcaneus they varied between 0.1±2.2° at heel-strike to 0.2±0.6° at toe-off. For the navicular, the rotational STA ranged from 0.6±0.9° at heel-strike to 0.7±0.7° at toe-off. The largest translational STA found in this study (16mm for the navicular) was smaller than those reported in the literature for the thigh and the lower leg, but was larger than the STA of individual spherical markers affixed to the foot. The largest errors occurred at toe-off position for all subjects for both the hindfoot and midfoot clusters. Future studies are recommended to quantify true three-dimensional STA of the entire foot during gait.
皮肤标记点的运动轨迹通过光学运动捕捉来进行追踪,被认为是对潜在骨骼运动的充分代表。然而,众所周知,标记点和骨骼之间存在软组织伪影(STA)。本研究定量评估了多节段足部模型的后足和中足标记簇相关的 STA。为了定量评估跟骨和距骨处后足和中足标记簇的 STA,在 27 名受试者的 4 个准静态位置(1)安静站立(非负重)、(2)足跟接触(负重)、(3)中间站立(负重)和(4)足趾离地(负重)期间采集了荧光透视图像。在矢状面计算 STA 的平移和旋转分量。跟骨处 STA 的平移分量在足跟接触时变化范围为 5.9±7.3mm,在足趾离地时为 12.1±0.3mm。对于距骨,在足跟接触时,其 STA 的平移分量为 7.6±7.6mm,在足趾离地时为 16.4±16.7mm。在所有足部位置,STA 的旋转分量对于两个骨骼都相对较小。对于跟骨,其范围在足跟接触时为 0.1±2.2°,在足趾离地时为 0.2±0.6°。对于距骨,其 STA 的旋转分量在足跟接触时为 0.6±0.9°,在足趾离地时为 0.7±0.7°。本研究中发现的最大平移 STA(距骨处为 16mm)小于文献中报道的大腿和小腿的 STA,但大于贴附在足部的单个球形标记的 STA。对于所有受试者,在所有位置,后足和中足标记簇的 STA 都最大。建议未来的研究定量评估步态期间整个足部的真实三维 STA。
