Searched for: author:"Faber, G.S."
(1 - 3 of 3)
document
Koopman, A.S. (author), Kingma, I. (author), Faber, G.S. (author), de Looze, M.P. (author), van Dieën, J.H. (author)
With mechanical loading as the main risk factor for LBP in mind, exoskeletons are designed to reduce the load on the back by taking over a part of the required moment. The present study assessed the effect of a passive exoskeleton on back and abdominal muscle activation, hip and lumbar flexion and on the contribution of both the human and the...
article 2019
document
Coenen, P. (author), Kingma, I. (author), Boot, C.R.L. (author), Faber, G.S. (author), Xu, X. (author), Bongers, P.M. (author), van Dieën, J.H. (author)
This study aimed to develop, compare and validate two versions of a video analysis method for assessment of low back moments during occupational lifting tasks since for epidemiological studies and ergonomic practice relatively cheap and easily applicable methods to assess low back loads are needed. Ten healthy subjects participated in a protocol...
article 2011
document
Faber, G.S. (author), Kingma, I. (author), Delleman, N. (author), van Dieën, J. (author)
This study investigated the effects of ship motion on peak spinal loading during lifting. All measurements were done on a ship at sea. In 1-min trials, which were repeated over a wide range of sailing conditions, subjects lifted an 18 kg box five times. Ship motion, whole body kinematics, ground reaction forces and electromyography were measured...
article 2008