Hang Xu scite author profile

Hang Xu

3Publications

95Citation Statements Received

42Citation Statements Given

How they've been cited

100

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Affiliations

Xuzhou Medical College, University of Utah, Chongqing University of Technology

Publications

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An improved OpenSim gait model with multiple degrees of freedom knee joint and knee ligaments

Bloswick

Merryweather

2014

Computer Methods in Biomechanics and Biomedical Engineering

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Musculoskeletal models are widely used to investigate joint kinematics and predict muscle force during gait. However, the knee is usually simplified as a one degree of freedom joint and knee ligaments are neglected. The aim of this study was to develop an OpenSim gait model with enhanced knee structures. The knee joint in this study included three rotations and three translations. The three knee rotations and mediolateral translation were independent, with proximodistal and anteroposterior translations occurring as a function of knee flexion/extension. Ten elastic elements described the geometrical and mechanical properties of the anterior and posterior cruciate ligaments (ACL and PCL), and the medial and lateral collateral ligaments (MCL and LCL). The three independent knee rotations were evaluated using OpenSim to observe ligament function. The results showed that the anterior and posterior bundles of ACL and PCL (aACL, pACL and aPCL, pPCL) intersected during knee flexion. The aACL and pACL mainly provided force during knee flexion and adduction, respectively. The aPCL was slack throughout the range of three knee rotations; however, the pPCL was utilised for knee abduction and internal rotation. The LCL was employed for knee adduction and rotation, but was slack beyond 20° of knee flexion. The MCL bundles were mainly used during knee adduction and external rotation. All these results suggest that the functions of knee ligaments in this model approximated the behaviour of the physical knee and the enhanced knee structures can improve the ability to investigate knee joint biomechanics during various gait activities.

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Gait alterations on irregular surface in people with Parkinson's disease

Xu¹,

Hunt²,

Foreman³

et al. 2018

Clinical Biomechanics

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Vacuum level effects on gait characteristics for unilateral transtibial amputees with elevated vacuum suspension

Greenland

Bloswick

et al. 2017

Clinical Biomechanics

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Background The elevated vacuum suspension system has demonstrated unique health benefits for amputees, but the effect of vacuum pressure values on gait characteristics is still unclear. The purpose of this study was to investigate the effects of elevated vacuum levels on temporal parameters, kinematics and kinetics for unilateral transtibial amputees. Methods Three-dimensional gait analysis was conducted in 9 unilateral transtibial amputees walking at a controlled speed with five vacuum levels ranging from 0–20 inHg, and also in 9 able-bodied subjects walking at self-preferred speed. Repeated ANOVA and Dunnett’s t-test were performed to determine the effect of vacuum level and limb for within subject and between groups. Findings The effect of vacuum level significantly affected peak hip external rotation and external knee adduction moment. Maximum braking and propulsive ground reaction forces generally increased for the residual limb and decreased for the intact limb with increasing vacuum. Additionally, the intact limb experienced an increased loading due to gait asymmetry for several variables. Interpretation There was no systematic vacuum level effect on gait. Higher vacuum levels, such as 15 and 20 inHg, were more comfortable and provided some relief to the intact limb, but may also increase the risk of osteoarthritis of the residual limb due to the increased peak external hip and knee adduction moments. Very low vacuum should be avoided because of the negative effects on gait symmetry. A moderate vacuum level at 15 inHg is suggested for unilateral transtibial amputees with elevated vacuum suspension.

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Hang Xu

An improved OpenSim gait model with multiple degrees of freedom knee joint and knee ligaments

Gait alterations on irregular surface in people with Parkinson's disease

Vacuum level effects on gait characteristics for unilateral transtibial amputees with elevated vacuum suspension

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