K
Kim Burton
Researcher at University of Huddersfield
Publications - 43
Citations - 1174
Kim Burton is an academic researcher from University of Huddersfield. The author has contributed to research in topics: Randomized controlled trial & Psychological intervention. The author has an hindex of 16, co-authored 40 publications receiving 1035 citations.
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Journal ArticleDOI
Extracting clinically relevant data from finite element simulations.
TL;DR: The aim of this editorial is to summarise the results of a wide discussion among experts, and to delineate the position of the Editorial Board of Clinical Biomechanics on this important matter.
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Editorial: Clinical biomechanics
TL;DR: Clinical Biomechanics aims to strengthen the link between clinic and laboratory by publishing biomechanics research which helps to explain the causes of musculoskeletal disorders and which provides knowledge contributing to improved clinical management.
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Comparative clinical effectiveness of management strategies for sciatica: systematic review and network meta-analyses.
Ruth Lewis,Nefyn Williams,Alex J. Sutton,Kim Burton,Nafees Ud Din,Hosam E. Matar,Maggie Hendry,Ceri Phillips,Sadia Nafees,Deborah Fitzsimmons,Ian Rickard,Clare Wilkinson +11 more
TL;DR: The findings support the effectiveness of nonopioid medication, epidural injections, and disc surgery and suggest that spinal manipulation, acupuncture, and experimental treatments, such as anti-inflammatory biological agents, may be considered.
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Biomechanics of human movement: applications in rehabilitation, sports and ergonomics N Berme and A Cappozzo, Eds Bertec Corp., Worthington, Ohio, 1990, 545 pp, $US56.50. [Bertec, 819 Loch Lomond Lane, Worthington, Ohio 43085, USA].
Journal ArticleDOI
Quantification of overload injuries to thoracolumbar vertebrae and discs in persons exposed to heavy physical exertions or vibration at the workplace Part II Occurrence and magnitude of overload injury in exposed cohorts.
Paul Brinckmann,W. Frobin,M. Biggemann,Malcolm Tillotson,Kim Burton,C. Burke,Claire Dickinson,H. Krause,R. Pangert,U. Pfeifer,H. Römer,M. Rysanek,D. Weiß,T. Wilson,V. Zarach,G. Zerlett +15 more
TL;DR: This study demonstrates, for the first time, objectively and quantitatively that spinal loading in certain industrial workplaces can result in damage to lumbar discs and suggests that existing ergonomic guidelines are justified to reduce the risk of irreversible spinal damage.