Ryan D. Wedge scite author profile

Ryan D. Wedge

4Publications

45Citation Statements Received

103Citation Statements Given

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112

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East Carolina University, University of Massachusetts Amherst, Quinnipiac University

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Approach for gait analysis in persons with limb loss including residuum and prosthesis socket dynamics

LaPrè

Price

Wedge

et al. 2017

Numer Methods Biomed Eng

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Musculoskeletal modeling and marker-based motion capture techniques are commonly used to quantify the motions of body segments, and the forces acting on them during human gait. However, when these techniques are applied to analyze the gait of people with lower limb loss, the clinically relevant interaction between the residual limb and prosthesis socket is typically overlooked. It is known that there is considerable motion and loading at the residuum-socket interface, yet traditional gait analysis techniques do not account for these factors due to the inability to place tracking markers on the residual limb inside of the socket. In the present work, we used a global optimization technique and anatomical constraints to estimate the motion and loading at the residuum-socket interface as part of standard gait analysis procedures. We systematically evaluated a range of parameters related to the residuum-socket interface, such as the number of degrees of freedom, and determined the configuration that yields the best compromise between faithfully tracking experimental marker positions while yielding anatomically realistic residuum-socket kinematics and loads that agree with data from the literature. Application of the present model to gait analysis for people with lower limb loss will deepen our understanding of the biomechanics of walking with a prosthesis, which should facilitate the development of enhanced rehabilitation protocols and improved assistive devices.

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Comparison of measurement protocols to estimate preferred walking speed between sites

et al. 2020

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The effect of orthotics on intersegmental foot kinematics and the EMG activity of select lower leg muscles

et al. 2015

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Metabolic cost of transport and stance time asymmetry in individuals with unilateral transtibial amputation using a passive prostheses while walking

Wedge

Sup

Umberger

2022

Clinical Biomechanics

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Ryan D. Wedge

Approach for gait analysis in persons with limb loss including residuum and prosthesis socket dynamics

Comparison of measurement protocols to estimate preferred walking speed between sites

The effect of orthotics on intersegmental foot kinematics and the EMG activity of select lower leg muscles

Metabolic cost of transport and stance time asymmetry in individuals with unilateral transtibial amputation using a passive prostheses while walking

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