Linking wheelchair kinetics to glenohumeral joint demand during everyday accessibility activities

In recent years the accessibility of London buses has improved with the introduction of ramps and wheelchair priority areas. These advances are meant to remove physical barriers to entering the bus, but new conflicts have arisen particularly over the physical space aboard. We aimed to research the barriers faced by wheelchair users in public transport using a mixed methods approach to establish the breadth of issues faced by wheelchair users. To this end we quantified the push-force used alight a bus and a study to understand the coping mechanisms used by people to propel up a ramp. This quantitative approach found push forces which resulted in a load of 2 to 3 times body weight being transferred through people's shoulders, forces which can be directly linked to shoulder injury. This could disable the user further, preventing them from being able to push their wheelchair. Alongside the quantitative study, we conducted qualitative research comprising of a number of in-depth interviews with wheelchair users about the barriers they face in public transport. Our main claim, highlighted through this interdisciplinary collaboration, is that proposed 'solutions' to accessibility, such as ramps, often generate problems of their own. These barriers can affect the life of wheelchair users, impacting on their confidence and causing social isolation. These can be long-term in nature or immediate.

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“…The detailed biomechanical study is fully described in Holloway et al (2015). However, the methods are summarised here to aid the reader.…”

Section: Detailed Biomechanical Studymentioning

confidence: 99%

The Effect of Transport Accessibility on the Social Inclusion of Wheelchair Users: A Mixed Method Analysis

Velho

Holloway

Symonds

et al. 2016

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“…A general purpose, lightweight, instrumented wheel has been developed to wirelessly record user 3D push forces, each push arc, speed and power in real time, to provide feedback for improving push style and efficiency. The Mk1 Sensewheel meets the main specification requirements, and was used in a PhD clinical study, aspects of which have been published elsewhere [12]. A Mk2 Sensewheel system is now under development, in which the load cells are wirelessly connected, for greater robustness and wider use.…”

Section: Discussionmentioning

confidence: 99%

A lightweight wheelchair propulsion dynamometer for improving user energy efficiency and mobility

Taylor

Symonds

Gorjon

et al. 2019

2019 3rd International Conference on Bio-Engineering for Smart Technologies (BioSMART)

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The population of manual wheelchair users is growing; the vast majority of users are due to spinal cord injury, often presenting in young adults. Propulsion forces must be produced by the upper body only; such repetitive forces impact the shoulder and elbow joints, leading to long term pain and injury. This also has an effect on mobility, with consequential socio-economic implications. Training in the style of propulsion, especially from an early age, may lead to more efficient propulsion and reduced injury and pain. To measure the forces of propulsion and calculate energy expenditure, the connecting pins between a wheelchair pushrim and drivewheel were replaced with three multi-axis load cells able to measure the real time forces due to pushing. This paper reports the development of the Sensewheel Mk1 propulsion dynamometer: concept, load cell design and modelling, strain gauging and instrumentation, assembly, calibration and sample recorded data.

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“…Previous data tracking activity levels of manual wheelchair users has reported the average distance travelled per day to be 1600m [26]. Minimising the push rate leads to the requirement of many fewer pushes, but the peak forces are very high, equivalent to climbing a 12% ramp, which are associated with higher glenohumeral joint contact forces and theoretically greater risk of injury [27]. Maximising push arc leads to the requirement of fewer pushes, with less increase in peak force, but increasing the push arc to such an extent may lead to injury due to the upper limb moving to greater extremes of movement, which should be avoided [2].…”

Section: Cross Variable Effectsmentioning

confidence: 99%

A systematic review: the influence of real time feedback on wheelchair propulsion biomechanics

Symonds

Barbareschi

Taylor

et al. 2017

Disability and Rehabilitation: Assistive Technology

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Background: Clinical guidelines recommend that, in order to minimize upper limb injury risk, wheelchair users adopt a semi-circular pattern with a slow cadence and a large push arc Objectives: To examine whether real time feedback can be used to influence manual wheelchair propulsion biomechanics.Review methods: Clinical trials and case series comparing the use of real time feedback against no feedback were included. A general review was performed and methodological quality assessed by two independent practitioners using the Downs and Black checklist. The review was completed in accordance with the PRISMA guidelines.Results: Six papers met the inclusion criteria. Selected studies involved 123 participants and analysed the effect of visual and, in one case, haptic feedback. Across the studies it was shown that participants were able to achieve significant changes in propulsion biomechanics, when provided with real time feedback.However, the effect of targeting a single propulsion variable might lead to unwanted alterations in other parameters. Methodological assessment identified weaknesses in external validity.Conclusions: Visual feedback could be used to consistently increase push arc and decrease push rate, and may be the best focus for feedback training. Further investigation is required to assess such intervention during outdoor propulsion.

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Linking wheelchair kinetics to glenohumeral joint demand during everyday accessibility activities

Cited by 20 publications

References 21 publications

The Effect of Transport Accessibility on the Social Inclusion of Wheelchair Users: A Mixed Method Analysis

The Effect of Transport Accessibility on the Social Inclusion of Wheelchair Users: A Mixed Method Analysis

A lightweight wheelchair propulsion dynamometer for improving user energy efficiency and mobility

A systematic review: the influence of real time feedback on wheelchair propulsion biomechanics

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