Saskia Baltrusch
248 Chapter 9 References 1. Oudshoorn, N. and Pinch, T. (2003), How users matter: The co-construction of users and technology. Cambridge, Massachusetts and London, England: MIT Press. 2. Hill, D., Holloway, C.S., Morgado Ramirez, D.Z., Smitham, P., Pappas, Y. (2017). What are user perspectives of exoskeleton technology? A literature review. Int J Technol Assess Health Care. 33(2), 160-167. 3. 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. 4. Zolnierek, K.B.H., DiMatteo, M.R. (2009). Physician communication and patient adherence to treatment: a meta-analysis. Med Care. 47, 826-834. 5. Wanzer, M.B., Booth-Butterfield, M., Gruber, K. (2004). Perceptions of health care providers’ communication: relationships between patient-centered communication and satisfaction. Health Commun. 16, 363-384. 6. Stewart, M.A. (1995). Effective physician-patient communication and health outcomes: a review. CMAJ. 152, 1423-1433. 7. Darlow, B., Fullen B.M., Dean S., Hurley D.A., Baxter, G.D., Dowell, A. (2012). The association between health care professional attitudes and beliefs and the attitudes and beliefs, clinical management, and outcomes of patients with low back pain: a systematic review. Eur J Pain. 16(1), 3-17. 8. Gordon, R. and Bloxham, S. (2016). A Systematic Review of the Effects of Exercise and Physical Activity on Non-Specific Chronic Low Back Pain. Healthcare. 4 (2), 22. 9. Verbeek, J., Sengers, M.J., Riemens, L., Haafkens, J. (2004). Patient Expectations of Treatment for Back Pain A Systematic Review of Qualitative and Quantitative Studies. Spine. 29(20), 2309-2318. 10. Koopman, A.S., Näf, M., Baltrusch, S.J., Kingma, I., Rodriguez-Guerrero, C., Babic, J., de Looze, M.P., van Dieën, J.H. (under review). Biomechanical evaluation of the SPEXOR passive back support exoskeleton. Journal of Biomechanics. 11. Brinckmann, P., Biggemann, M., Hilweg, D. (1989). Prediction of the compressive strength of human lumbar vertebrae. Clinical Biomechanics 4, iii-27. 12. Jäger, M., 2018. Extended compilation of autopsy-material measurements on lumbar ultimate compressive strength for deriving reference values in ergonomic work design: The revised Dortmund recommendations. EXCLI journal 17, 362-385. 13. Cha, J.S., Monfared, S., Ecker, K., Lee, D., Stefanidis, D., Nussbaum, M.A., Yu, D. (2019) Identifying Barriers and Facilitators of Exoskeleton Implementation In The Operating Room. Proceedings of the Human Factors and Ergonomics Society Annual Meeting. 63(1), 1113. 14. Luger, T., Seibt, R., Cobb, T.J., Rieger, M.A., Steinhilber, B. (2019). Influence of a passive lower-limb exoskeleton during simulated industrial work tasks on physical load, upper body posture, postural control and discomfort. Applied Ergonomics. 80, 152-160. 15. Zelik, K.E. et al. (2011). Systematic Variation of Prosthetic Foot Spring Affects Center- of-Mass Mechanics and Metabolic Cost During Walking. IEEE Trans. Neural Syst. Rehabil. Eng. 19, 411-419.
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