Optimum design of a lumber support belt to reduce the physical workload of the low back
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Published:2016
Issue:1
Volume:10
Page:JAMDSM0012-JAMDSM0012
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ISSN:1881-3054
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Container-title:Journal of Advanced Mechanical Design, Systems, and Manufacturing
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language:en
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Short-container-title:JAMDSM
Author:
CHIHARA Takanori1, NISHIJIMA Urara2, MORIYA Ikuto2, SEO Akihiko1, HATANO Hirokazu3, YAMADA Hiroyuki3
Affiliation:
1. Faculty of System Design, Tokyo Metropolitan University 2. Graduate School of System Design, Tokyo Metropolitan University 3. ALCARE Co., Ltd.
Publisher
Japan Society of Mechanical Engineers
Subject
Industrial and Manufacturing Engineering,Mechanical Engineering
Reference23 articles.
1. Calmels, P., Queneau, .P, Hamonet, C., Le Pen, C., Maurel, F., Lerouvreur, C. and Thoumie, P., Effectiveness of a lumbar belt in subacute low back pain: an open, multicentric, and randomized clinical study, Spine, Vol.34, No.3 (2009), pp.215-220. 2. Chaffin, D.B., Andersson, G.B.J. and Martin, B.J., Occupational Biomechanics, Fourth ed. (2006), pp.37-160, Wiley. 3. Cholewicki, J., Lee, A.S., Peter Reeves, N. and Morrisette, D.C., Comparison of trunk stiffness provided by different design characteristics of lumbosacral orthoses, Clinical Biomechanics, Vol.25, No.2 (2010), pp.110-114. 4. Dillingham, T.R., Lumbar supports for prevention of low back pain in the workplace, Journal of the American Medical Association, Vol.279, No.22 (1998), pp.1826-1828. 5. Grew, N.D. and Deane, G., The physical effect of lumbar spinal supports, Prosthetics and Orthotics International, Vol.6, No.2 (1982), pp.79-87.
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