The impact of high-heeled shoes on ankle complex during walking in young women—In vivo kinematic study based on 3D to 2D registration technique

Abstract Objective To explore the accurate in vivo kinematic changes in the ankle complex when wearing low- and high-heel shoes (LHS and HHS, respectively). Materials and methods Twelve young women were tested unilaterally. Three-dimensional models of the tibia, talus, and calcaneus were first creat...

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Bibliographic Details
Published in:Journal of electromyography and kinesiology 2016-06, Vol.28, p.7-16
Main Authors: Wang, Chen, Geng, Xiang, Wang, Shaobai, Ma, Xin, Wang, Xu, Huang, Jiazhang, Zhang, Chao, Chen, Li, Yang, Junsheng, Li, Jiabei, Wang, Kan
Format: Article
Language:English
Subjects:
3D–2D registration
Adult
Ankle complex
Ankle Joint - diagnostic imaging
Ankle Joint - physiology
Biomechanical Phenomena - physiology
Female
Gait - physiology
High-heel shoes
Humans
Imaging, Three-Dimensional - methods
In vivo kinematics
Muscle, Skeletal
Physical Medicine and Rehabilitation
Range of Motion, Articular - physiology
Shoes - adverse effects
Tibia - physiology
Tomography, X-Ray Computed - methods
Walking - physiology
Young Adult
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Summary:Abstract Objective To explore the accurate in vivo kinematic changes in the ankle complex when wearing low- and high-heel shoes (LHS and HHS, respectively). Materials and methods Twelve young women were tested unilaterally. Three-dimensional models of the tibia, talus, and calcaneus were first created based on CT scan results. The subjects walked at a self-controlled speed in barefoot, LHS (4 cm), and HHS (10 cm) conditions. A fluoroscopy system captured the lateral fluoroscopic images of the ankle complex. The images of seven key positions in the stance phase were selected, and 3D to 2D bone model registrations were performed to determine the joint positions. The mean of 6 degree of freedom (DOF) range of motions (ROM), joint positions, and angular displacements of the ankle complex during the gait were then obtained. Results For the talocrural joint, the rotational ROMs of the subjects either in LHS or HHS condition displayed no significant difference from those in barefoot condition. For the subtalar joint, all the rotational ROMs in the HHS condition and the internal/external rotations in the LHS condition significantly decreased compared with those in the barefoot condition. The talocrural joint was positioned significantly more plantarflexed, inverted, internally rotated, and posteriorly seated in all seven poses in HHS condition, compared with those in barefoot condition. Conclusion HHS mainly affected the rotational motion of the ankle complex during walking. The talocrural joint position was abnormal, and the subtalar joint ROM decreased during the gait in HHS condition. Only a few kinematic changes occurred in LHS condition relative to the barefoot condition.
ISSN:1050-6411
1873-5711
DOI:10.1016/j.jelekin.2016.01.005