Saskia Baltrusch

172 Chapter 6 References 1. Hoy, D., Bain, C., Williams, G., March, L., Brooks, P., Blyth, F., Woolf, A., Vos, T., Buchbinder, R. (2012). A Systematic Review of the Global Prevalence of Low-back pain. Arthritis & Rheumatism, 64(6), 2028-2037. 2. Boos, N., Aebi, M. (2008). Spinal Disorders: Fundamentals of Diagnosis and Treat- ment. Springer-Verlag, Berlin Heidelberg, p. 156, 163. 3. 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, 448-456. 4. Marras, W.S. (2005). The future of research in understanding and controlling work- related low back disorders, Ergonomics, 48(5), 464-477. 5. Coenen, P., Kingma, I., Boot, C.R., Bongers, P.M., van Dieen, J.H. (2014a). Cumulative mechanical low-back load at work is a determinant of low-back pain. Occup Environ Med 71, 332-337. 6. Coenen, P., Gouttebarge, V., van der Burght, A.S.A.M., van Dieen, J.H., Frings- Dresen, M.H.W., van der Beek, A.J., Burdorf, A. (2014b). The effect of lifting during work on low-back pain – a health impact assessment based on a meta-analysis. Occ Env Med, 71, 871-877. 7. Griffith, L.E., Shannon, H.S., Wells, R.P., Walter, S.D., Cole, D.C., Cote, P., Frank, J., Hogg-Johnson, S., Langlois, L.E. (2012). Individual participant data meta-analysis of mechanical workplace risk factors and low-back pain. Am J Public Health, 102, 309-318. 8. de Looze, M.P., Bosch, T., Krause, F., Stadler, K.S., O’Sullivan, L.W. (2016). Exoskeletons for industrial application and their potential effects on physical work load, Ergonomics. 59(5), 671-681. 9. Abdoli-E.M., Stevenson, J.M., Reid, S.A., Bryant, T.J. (2007). Mathematical and empirical proof of principle for an on-body personal lift augmentation device (PLAD). Journal of Biomechanics. 40, 1694–1700. 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. Koopman, A.S., Kingma, I., Faber, G.S., de Looze, M.P., van Dieën, J.H. (2019). Effects of a passive exoskeleton on the mechanical loading of the low back in static holding tasks. J Biomech, 83, 97-103. 14. Baltrusch, S.J., van Dieën, J.H., van Bennekom, C.A.M., Houdijk, H. (2018). The effect of a passive trunk exoskeleton on functional performance in healthy individuals. Applied ergonomics 72, 94-106.

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