Steve Pearson scite author profile

Steve Pearson

2Publications

6Citation Statements Received

0Citation Statements Given

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University of Salford

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A device for characterising the mechanical properties of the plantar soft tissue of the foot

Parker

Cooper

Pearson

et al. 2015

Medical Engineering & Physics

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The plantar soft tissue is a highly functional viscoelastic structure involved in transferring load to the human body during walking. A Soft Tissue Response Imaging Device was developed to apply a vertical compression to the plantar soft tissue whilst measuring the mechanical response via a combined load cell and ultrasound imaging arrangement. Accuracy of motion compared to input profiles; validation of the response measured for standard materials in compression; variability of force and displacement measures for consecutive compressive cycles; and implementation in vivo with five healthy participants. Static displacement displayed average error of 0.04 mm (range of 15 mm), and static load displayed average error of 0.15 N (range of 250 N). Validation tests showed acceptable agreement compared to a Houndsfield tensometer for both displacement (CMC > 0.99 RMSE > 0.18 mm) and load (CMC > 0.95 RMSE < 4.86 N). Device motion was highly repeatable for bench-top tests (ICC = 0.99) and participant trials (CMC = 1.00). Soft tissue response was found repeatable for intra (CMC > 0.98) and inter trials (CMC > 0.70). The device has been shown to be capable of implementing complex loading patterns similar to gait, and of capturing the compressive response of the plantar soft tissue for a range of loading conditions in vivo.

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Tumour necrosis factor‐related weak inducer of apoptosis (TWEAK)‐induced skeletal muscle damage is attenuated by the omega‐3 polyunsaturated fatty acid (PUFA) docosohexaenoic acid (DHA)

Whittingham-Dowd¹,

Allen²,

Pearson

2011

FASEB j.

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Steve Pearson

A device for characterising the mechanical properties of the plantar soft tissue of the foot

Tumour necrosis factor‐related weak inducer of apoptosis (TWEAK)‐induced skeletal muscle damage is attenuated by the omega‐3 polyunsaturated fatty acid (PUFA) docosohexaenoic acid (DHA)

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