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All Outputs (11)

Estimating the material properties of heel pad sub-layers using inverse finite element analysis (2016)
Journal Article
Ahanchian, N., Nester, C., Howard, D., Ren, L., & Parker, D. (2016). Estimating the material properties of heel pad sub-layers using inverse finite element analysis. Medical Engineering and Physics, 40, 11-19. https://doi.org/10.1016/j.medengphy.2016.11.003

Detailed information about the biomechanical behaviour of plantar heel pad tissue contributes to our understanding of load transfer when the foot impacts the ground. The objective of this work was to obtain the hyperelastic and viscoelastic material... Read More about Estimating the material properties of heel pad sub-layers using inverse finite element analysis.

Energy flow analysis of amputee walking shows a proximally-directed transfer of energy in intact limbs, compared to a distally-directed transfer in prosthetic limbs at push-off (2016)
Journal Article
Weinert-Aplin, R., Howard, D., Twiste, M., Jarvis, H., Bennett, A., & Baker, R. (2017). Energy flow analysis of amputee walking shows a proximally-directed transfer of energy in intact limbs, compared to a distally-directed transfer in prosthetic limbs at push-off. Medical Engineering and Physics, 39, 73-82. https://doi.org/10.1016/j.medengphy.2016.10.005

Reduced capacity and increased metabolic cost of walking occurs in amputees, despite advances in prosthetic componentry. Joint powers can quantify deficiencies in prosthetic gait, but do not reveal how energy is exchanged between limb segments. This... Read More about Energy flow analysis of amputee walking shows a proximally-directed transfer of energy in intact limbs, compared to a distally-directed transfer in prosthetic limbs at push-off.

Crowd-sourced amputee gait data : a feasibility study using YouTube videos of unilateral trans-femoral gait (2016)
Journal Article
Gardiner, J., Gunarathne, N., Howard, D., & Kenney, L. (2016). Crowd-sourced amputee gait data : a feasibility study using YouTube videos of unilateral trans-femoral gait. PLoS ONE, 11(10), e0165287. https://doi.org/10.1371/journal.pone.0165287

Collecting large datasets of amputee gait data is notoriously difficult. Additionally, collecting data on less prevalent amputations or on gait activities other than level walking and running on hard surfaces is rarely attempted. However, with the we... Read More about Crowd-sourced amputee gait data : a feasibility study using YouTube videos of unilateral trans-femoral gait.

A review of the design and clinical evaluation of the ShefStim array-based functional electrical stimulation system (2016)
Journal Article
Kenney, L., Heller, B., Barker, A., Reeves, M., Healey, J., Good, T., …Howard, D. (2016). A review of the design and clinical evaluation of the ShefStim array-based functional electrical stimulation system. Medical Engineering and Physics, 38(11), 1159 -1165. https://doi.org/10.1016/j.medengphy.2016.08.005

Functional electrical stimulation has been shown to be a safe and effective means of correcting foot drop of central neurological origin. Current surface-based devices typically consist of a single channel stim- ulator, a sensor for determining gait... Read More about A review of the design and clinical evaluation of the ShefStim array-based functional electrical stimulation system.

Dealing with time-varying recruitment and length in Hill-type muscle models (2016)
Journal Article
Hamouda, A., Kenney, L., & Howard, D. (2016). Dealing with time-varying recruitment and length in Hill-type muscle models. Journal of Biomechanics, 49(14), 3375-3380. https://doi.org/10.1016/j.jbiomech.2016.08.030

Hill-type muscle models are often used in muscle simulation studies and also in the design
and virtual prototyping of functional electrical stimulation systems. These models have to
behave in a sufficiently realistic manner when recruitment level a... Read More about Dealing with time-varying recruitment and length in Hill-type muscle models.

A novel method of using accelerometry for upper limb FES control (2016)
Journal Article
Sun, M., Kenney, L., Smith, C., Waring, K., Luckie, H., Liu, A., & Howard, D. (2016). A novel method of using accelerometry for upper limb FES control. Medical Engineering and Physics, 38(11), 1244-1250. https://doi.org/10.1016/j.medengphy.2016.06.005

This paper reports on a novel approach to using a 3-axis accelerometer to capture body segment angle for upper limb functional electrical stimulation (FES) control. The approach calculates the angle between the accelerome... Read More about A novel method of using accelerometry for upper limb FES control.

A flexible finite state controller for upper limb functional electrical stimulation (2016)
Presentation / Conference
Sun, M., Kenney, L., Smith, C., Waring, K., Luckie, H., & Howard, D. (2016, June). A flexible finite state controller for upper limb functional electrical stimulation. Poster presented at 20th Annual Conference of the International Functional Electrical Stimulation Society, La Grande-Motte, France

This paper reports on a flexible finite stage machine (FSM) controller for the real-time control of functional electrical stimulation (FES) during upper limb rehabilitation, and an associated setup Graphical User Interface (GUI) guides clinical users... Read More about A flexible finite state controller for upper limb functional electrical stimulation.

A fast inverse dynamics model of walking for use in optimisation studies (2016)
Journal Article
Salehi, S., Ren, L., & Howard, D. (2016). A fast inverse dynamics model of walking for use in optimisation studies. Computer Methods in Biomechanics and Biomedical Engineering, 19(11), 1201-1209. https://doi.org/10.1080/10255842.2015.1124267

Computer simulation of human gait, based on measured motion data, is a well-established technique in biomechanics. However, optimisation studies requiring many iterative gait cycle simulations have not yet found widespread application because of thei... Read More about A fast inverse dynamics model of walking for use in optimisation studies.

The effects of prosthetic ankle stiffness on stability of gait in people with trans-tibial amputation (2016)
Journal Article
Major, M., Twiste, M., Kenney, L., & Howard, D. (2016). The effects of prosthetic ankle stiffness on stability of gait in people with trans-tibial amputation. Journal of rehabilitation research and development, 53(6), 839-852. https://doi.org/10.1682/JRRD.2015.08.0148

The ability to control balance during walking is a critical precondition for minimizing fall risk, but is compromised in persons with lower-limb loss due to reduced sensory feedback mechanisms and inability to actively modulate prosthesis mechanical... Read More about The effects of prosthetic ankle stiffness on stability of gait in people with trans-tibial amputation.

Transtibial amputee gait efficiency : energy storage and return versus solid ankle cushioned heel prosthetic feet (2016)
Journal Article
Gardiner, J., Bari, A., Howard, D., & Kenney, L. (2016). Transtibial amputee gait efficiency : energy storage and return versus solid ankle cushioned heel prosthetic feet. Journal of rehabilitation research and development, 53(6), 1133-1138. https://doi.org/10.1682/JRRD.2015.04.0066

Energy storage and return (ESR) feet have long been assumed to promote metabolically efficient amputee gait. However, despite being prescribed for approximately thirty years, there is limited evidence that they achieve this desired function. Here, we... Read More about Transtibial amputee gait efficiency : energy storage and return versus solid ankle cushioned heel prosthetic feet.