Saskia Baltrusch

67 Chapter 3 References 1. Woolf, A. D., Pfleger, B. (2003). Burden of major musculoskeletal conditions. Bull World Health Organ. 81(9), 646-656. 2. Wynne-Jones, G., Cowen J., Jordan J. L., Uthman, O., Main, C. J., Glozier, N., van der Windt, D. (2014). Absence from work and return to work in people with back pain: a systematic review and meta-analysis. Occup Environ Med , 71(6), 448–456. 3. Lambeek, L. C., van Tulder, M. W., Swinkels, I. C. S., Koppes, L. L. J., Anema, J. R., Mechelen, W. (2011). The trend in total cost of back pain in The Netherlands in the period 2002 to 2007. Spine, 36(13), 1050 – 1058. 4. Waddell, G., Burton, A. K. (2001). Occupational health guidelines for the management of low back pain at work: Evidence review. Occupational Medicine, 51(2), 124-135. 5. Burton, A. K. (1997). Back injury and work loss: biomechanical and psychosocial influences. Spine, 22, 2575–2580. 6. Garg, A. & Moore, J. S. (1992). Epidemiology of low back pain in industry. Occup Med, 7, 593–608. 7. Lotz, C. A., Agnew, M. J., Godwin, A. A., Stevenson, J. M. (2009). The effect of an on-body personal lift assist device ( PLAD ) on fatigue during a repetitive lifting task. Journal of Electromyography and Kinesiology , 19(2), 331–340. 8. Abdoli-E., M., & Stevenson, J. M. (2008). The effect of on-body lift assistive device on the lumbar 3D dynamic moments and EMG during asymmetric freestyle lifting. Clinical Biomechanics , 23, 372–380. 9. Bosch, T., van Eck, J., Knitel, K., de Looze, M. (2016). The effects of a passive exoskeleton on muscle activity, discomfort and endurance time in forward bending work. Applied Ergonomics , 54, 212-217. 10. Graham, R. B., Agnew, M. J., Stevenson, J. M. (2009). Effectiveness of an on-body lifting aid at reducing low back physical demands during an automotive assembly task : Assessment of EMG response and user acceptability. Applied Ergonomics , 40(5), 936–942. 11. Ulrey, B. L., & Fathallah, F. A. (2013). Effect of a personal weight transfer device on muscle activities and joint flexions in the stooped posture. Journal of Electromyography and Kinesiology , 23 (1), 195–205. 12. Wehner, M., Rempel, D., Kazerooni, H. (2009). Lower Extremity Exoskeleton Reduces Back Forces in Lifting. ASME 2009 Dynamic Systems and Control Conference, 2, 49–56. 13. de Looze, M. P., Bosch, T., Krause, F., Stadler, K. S., O’Sullivan, L. W. (2015). Exoskeletons for industrial application and their potential effects on physical work load, Ergonomics , 59(5), 671-681. 14. Ilmarinen, J. (2009). Work ability-a comprehensive concept for occupational health research and prevention [editorial]. Scand J Work Environ Health, 35(1), 1–5. 15. Reneman, M. F., Brouwer, S., Meinema, A., Dijkstra, P. U., Geertzen, J. H., Groothoff, J. W. (2004). Test-retest reliability of the Isernhagen Work Systems Functional Capacity Evaluation in healthy adults. J Ouccup Rehabil, 14(4), 295-305. 16. Waters, T. R., Putz-Anderson, V., Garg, A., Fine, L. J. (1993). Revised NIOSH equation for the design and evaluation of manual lifting tasks . Ergonomics, 36, 749-776. 3