Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-11-30T20:29:19.070Z Has data issue: false hasContentIssue false

Prediction of pressure in the spinal column during professionalphysical activities: the use of multibody simulation

Published online by Cambridge University Press:  08 August 2014

Pierre Tihon*
Affiliation:
Facultépolytechnique, Université de Mons, Boulevard Dolez 31, 7000 Mons, Belgique
Philippe Brux
Affiliation:
Facultépolytechnique, Université de Mons, Boulevard Dolez 31, 7000 Mons, Belgique Modyva, Rue René Descartes 1/4, 7000 Mons, Belgique
Georges Kouroussis
Affiliation:
Facultépolytechnique, Université de Mons, Boulevard Dolez 31, 7000 Mons, Belgique
Olivier Verlinden
Affiliation:
Facultépolytechnique, Université de Mons, Boulevard Dolez 31, 7000 Mons, Belgique
*
a Corresponding author:[email protected]
Get access

Abstract

Nowadays, backache risks due to professional activities remain high, while theirquantitative estimation is not well-known. Different methods have been developed todetermine the exposure of the spinal column to risk of damage. In Belgium, the “Fond desMaladies professionnelles” (FMP) suggests to use the “Mainz Dortmund Dosis” (MDD) methodto compute the exposure dose accumulated during the whole professional life. This methoduses the so-called biomechanical model “The Dortmunder” where the skeleton of the humanbody is represented by 30 rigid bodies to which certain abdominal and back muscles arelinked. This paper presents an implementation of the Dortmunder model with EasyDyn, aC++ library developed by theDepartment of Theoretical Mechanics, Dynamics and Vibrations of the University of Mons forsolving multibody problems, among others. Our model is first validated by comparing theobtained results with the one found in the literature. It is then used in a posture thatis not considered yet by the FMP. It is shown that working on ones knees can induce forcesin the back that increase the risk of backage.

Type
Research Article
Copyright
© AFM, EDP Sciences 2014

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Malchaire, J., Evaluation et prévention des risques lombaires: classification des méthodes, Médecine du travail et ergonomie 38 (2001) 5366 Google Scholar
Wilke, H.-J., Neef, P., Caimi, M., Hoogland, T., Claes, L.E., New In Vivo Measurements of Pressures in the Intervertebral Disc in Daily Life, Spine 35 (1999) 755−762 CrossRefGoogle Scholar
M. Jäger, A. Luttmann, R. Göliner, W. Laurig, The Dortmunder – Biomechanical Model for Quantification and Assessment of the Load on the Lumbar Spine, SAE Technical Paper: 2001-01-2085 (2001)
Hartung, E., Schäfer, K., Jäger, M., Luttmann, A., Bolm-Audorff, U., Kuhn, S., Paul, R., Francks, H.-P., Mainz-Dortmunder Dosismodell (MDD) zur Beurteilung der Belastung der Lendenwirbelsäule durch Heben oder Tragen schwerer Lasten oder durch Tätigkeiten in extremer Rumpfbeugehaltung bei Verdacht auf Berufskrankheit Nr. 2108. Teil 1: Retrospektive Belastungsermittlung für risikobehaftete Tätigkeitsfelder, Arbeitsmed Sozialmed Umweltmed 34 (1999) 10111 [Eng: The Mainz Dortmund Dose Model (MDD) for assessing the load on the lumbar spine caused by lifting and carrying heavy objects or by work with the trunk fully inclined in suspicion of occupational disease No. 2108. Part 1: Retrospective load estimation for risky jobs] Google Scholar
Hartung, E., Schäfer, K., Jäger, M., Luttmann, A., Bolm-Audorff, U., Kuhn, S., Paul, R., Francks, H.-P., Mainz-Dortmunder Dosis modell (MDD) zur Beurteilung der Belastung der Lendenwirbelsäule durch Heben oder Tragen schwerer Lasten oder durch Tätigkeiten in extremer Rumpfbeugehaltung bei Verdacht auf Berufskrankheit Nr. 2108. Teil 2: Vorschlag zur Beurteilung der arbeitstechnischen Voraussetzungen im Berufskrankheiten-Feststellungsverfahren, Arbeitsmed Sozialmed Umweltmed 34 (1999) 112122 [Eng: The Mainz Dortmund Dose Model (MDD) for assessing the load on the lumbar spine caused by lifting and carrying heavy objects or by work with the trunk fully inclined in suspicion of occupational disease No. 2108. Part 2: Suggestion for the assessment of work-related prerequisites in occupational disease evaluation] Google Scholar
M. Schlick, Einführung in die Arbeitswissenschaft, Produktionsergonomie lehreinheit 9 Sommersemester 2011 [Eng: Introduction to work sciences, Work ergonomics]
Jäger, M., Luttmann, A., Laurig, W., Lumbar load during one-handed bricklaying, Int. J. Ind. Erg. 8 (1991) 261277 CrossRefGoogle Scholar
G. Kouroussis, C. Rustin, Q. Bombled, O. Verlinden, EasyDin: multibody open-source framework for advanced research purposes, Proceedings of the Multibody Dynamics 2011, ECCOMAS Thematic Conference, Brussels, Belgium, 2011
Verlinden, O., Ben Fekih, L., Kouroussis, G., Symbolic generation of the kinematics of multibody systems in EasyDyn: from MuPAD to Xcas/Giac, Theor. Appl. Mech. Lett. 3 (2013) 0113012 CrossRefGoogle Scholar