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References

  • Anderson, C. K., Chaffin, B. D., & Herrin, G. D. (1986). A study of lumbosacral orientation under varied static loads. Spine, 11, 456462.
  • Bao, S., Howard, N., Spielholz, P., & Silverstein, B. (2007). Two posture analysis approaches and their applications in a modified Rapid Upper Limb Assessment evaluations. Ergonomics, 50, 21182136.
  • Bao, S., Howard, N., Spielholz, P., Silverstein, B., & Polissar, N. (2011). Interrater reliability of posture observations. Human Factors, 51, 292309.
  • Bernard, B. P. (Ed.). (1997). Musculoskeletal disorders and workplace factors, a critical review of epidemiologic evidence for work-related musculoskeletal disorders of the neck, upper extremity and low back. National Institute for Occupational Safety and Health: US Department of Health and Human Services.
  • Boda, S. V., Bhoyar, P., & Garg, A. (2010). Validation of revised NIOSH lifting equation and 3D SSP model to predict risk of work-related low back pain. Proceedings of the Human Factors and Ergonomics Society 54th Annual Meeting, San Francisco, CA.
  • Burdorf, A. (1992). Exposure assessment of risk factors for disorders of the back in occupational epidemiology. Scandinavian Journal of Work Environment Health, 18, 19.
  • Burt, S., & Punnett, L. (1999). Evaluation of interrater reliability for posture observations in a field study. Applied Ergonomics, 30, 121135.
  • Callaghan, J. P., Salewytsch, A. J., & Andrews, D. M. (2001). An evaluation of predictive methods for estimating cumulative spinal loading. Ergonomics, 44, 825837.
  • Chaffin, D. B. (1969). A computerized biomechanical model-development of and use in studying gross body action. Journal of Biomechanics, 2, 429.
  • Chaffin, D. B. (1997). Development of computerized human static strength simulation model for job design. Human Factors and Ergonomics in Manufacturing, 7 (4), 305322.
  • Chaffin, D. B., Andersson, G., & Martin, B. (1999). Occupational biomechanics (3rd ed.). New York: Wiley.
  • Chaffin, D. B., & Baker, W. H. (1970). A biomechanical model for analysis of symmetrical sagittal plane lifting. AIIE Transactions, 2, 1627.
  • Chaffin, D. B., & Erig, M. (1991). Three dimensional biomechanical static strength prediction model sensitivity to posture and anthropometric inaccuracies. AIIE Transactions, 23, 215227.
  • da Costa, B. R., & Vieira, E. R. (2010). Risk factors for work-related musculoskeletal disorders: A systematic review of recent longitudinal studies. American Journal of Industrial Medicine, 53, 285323.
  • de Looze, M. P., Kingma, I., Bussmann, J., & Toussant, H. M. (1992). Validation of a dynamic linked segment model to calculate joint moments in lifting. Clinical Biomechanics, 7, 161169.
  • Ericson, M., Kilbom, A. Wiltorin, C., & Winkel, J. (1991). Validity and reliability in the estimation of trunk, arm, and neck inclination by observation. In Y. Queinnec & F. Daniellou (Eds.), Designing for everyone. Proceeding of the 11th Congress of the international Ergonomics Association (pp. 245247). London: Taylor & Francis.
  • Ferguson, S. A., & Marras, W. S. (1997). A literature review of low back disorder surveillance measures and risk factors. Clinical Biomechanics, 12, 211226.
  • Garg, A., & Kapellusch, J. M. (2009). Applications of biomechanics for prevention of work-related musculoskeletal disorders. Ergonomics, 52, 3659.
  • Garg, A., & Chaffin, D. (1975). A biomechanical computerized simulation of human strength. AIIE Transactions, 7, 115.
  • Genaidy, A. M., Simmons, R. J., Guo, L., & Hidalgo, J. A. (1993). Can visual perception be used to estimate body part angles? Ergonomics, 36, 323329.
  • Hoogendoorn, W. E., Poppel, M. N. M., & van Bongers, P. M. (1999). Physical load during work and leisure time as risk factors for back pain. Scandinavian Journal of Work, Environment & Health, 25, 387403.
  • Hoogendoorn, W. E., Poppel, M. N. M., van Henrica, C. W., Douwes, M., Koes, B. W., Miedema, M. C., et al. (1999). Flexion and rotation of the trunk and lifting at work are risk factors for low back pain. Spine, 25, 30873092.
  • Jager, M., Jordan, C., Luttmann, A., & Laurig, W. (2000). Evaluation and assessment of lumbar load during total shifts for occupational manual materials handling jobs within the Dortmund Lumbar Load Study–DOLLY. International Journal of Industrial Ergonomics, 25, 553571.
  • Jorgensen, M. J., Marras, W. S., Gupta, P., & Waters, T. R. (2003). The effect of torso flexion on the lumbar torso extensor muscle sagittal plane moment arms. The Spine Journal, 3, 363369.
  • Keyserling, W. M. (1986). A computer-aided system to evaluate posture stress in the workplace. American Industrial Hygiene Association, 47, 641649.
  • Kingma, I., de Looze, M. P., Toussaint, H. M., Klijinsma, H. G., & Bruijnen, T. (1996). Validation of a full body 3-D dynamic linked segment model. Human Movement Science, 15, 833860.
  • Kromodihardjo, S., & Mital, A. (1986). Kinetic analysis of manual lifting activities: Part I. Development of a three dimensional computer model. International Journal of Industrial Ergonomics, 1, 7790.
  • Kumar, S. (1990). Cumulative load as a risk factor for back pain. Spine, 15, 13111316.
  • Lau, M. H., & Armstrong, T. J. (2010). The effect of viewing angle on wrist posture estimation from photographic images using novice raters. Applied Ergonomics, 42, 634643.
  • Lavender, S. A., Oleske, D. M., Nicholson, L., Andersson, G. B. J., & Hahn, J. (1999). Comparison of five methods used to determine low back disorder risk in a manufacturing environment. Spine, 24, 14411448.
  • Li, Guangyan, & Buckle, P. (1999). Current techniques for assessing physical exposure to work-related musculoskeletal risks, with emphasis on posture-based methods. Ergonomics, 42, 674695.
  • Liu, Y., Zhang, Z., & Chaffin, D. (1997). Perception and visualization of human information for computer-aided ergonomic analysis. Ergonomics, 40, 818833.
  • Lowe, B. (2004). Accuracy and validity of observational estimates of wrist and forearm posture. Ergonomics, 15, 527554.
  • Lu, M., Waters, T., Werren, D., & Piacitelli, L. (2009). Comparisons of accuracies of two methods for assessing trunk posture associated with low back disorders. Proceedings of the 17th World Congress on Ergonomics, Beijing, China.
  • Lu, M., Waters, T., Werren, D., & Piacitelli, L. (2011). Human posture simulation to assess cumulative spinal load due to manual lifting. Part II: accuracy and precision. Theoretical Issues in Ergonomics Science, 12, 189203.
  • Marras, W. S., Fine, L. J., Ferguson, S. A., & Waters, T. R. (1999). The effectiveness of commonly used lifting assessment methods to identify industrial jobs associated with elevated risk of LBDs. Ergonomics, 42, 229245.
  • Marras, W. S., Lavender, S. A., Ferguson, S. A., Splittstoesser, R. E., & Yang, G. (2010). Quantitative biomechanical workplace exposure measures: Distribution centers. Journal of Electromyography and Kinesiology, 20, 813822.
  • Marras, W. S., Lavender, S. A., Leurgans, S. E., Fathallah, F. A., Ferguson, S. A., Allread, W. G., et al. (1995). Trunk motion and occupationally-related low back disorder risk. Ergonomics, 38, 377410.
  • National Research Council; Institute of Medicine; National Academy of Science. (2001). Musculoskeletal disorders and the workplace. Low back and upper extremities. Washington, DC: National Academy Press.
  • Norman, R., Wells, R., Neumann, R., Frank, J., Shannon, H., & Kerr, M.; Ontario Universities Back Pain Study (OUBPS) Group. (1998). A comparison of peak vs. cumulative physical work exposure risk factors for the reporting of back pain in the automotive industry. Clinical Biomechanics, 13, 561573.
  • Punnett, L., Fine, L. J., Keyserling, W. M., Herrin, G. D., & Chaggin, D. B. (1991). Back disorders and non-neutral trunk postures of automobile assembly workers. Scandinavian Journal of Work, Environment & Health, 17, 337346.
  • Punnett, L. & Wegman, D.H. (2004). Work-related musculoskeletal disorders: the epidemiologic evidence and the debate. Journal of Electromyography and Kinesiology, 14, 13–23.
  • The Regents of University of Michigan. (2001). Three dimensional static strength prediction program manual. Version 4.3. Ann Arbor, MI.
  • Sutherland, C. A., Albert, W. J., Wrigley, A. T., & Callaghan, J. P. (2008). A validation of a posture matching approach for the determination of 3D cumulative back loads. Applied Ergonomics, 39, 199208.
  • Takala, E., Pehkonen, I., Forsman, M., Hansson, G., Mathiassen, S. E., Neumann, W. P., et al. (2010). Systematic evaluation of observational methods assessing biomechanical exposures at work. Scandinavian Journal of Work, Environment & Health, 36, 324.
  • Waters, T. R., Putz-Anderson, V., & Baron, S. (1998). Methods for assessing the physical demands of manual lifting: A review and case study from warehousing. American Industrial Hygiene Association Journal, 59, 871881.
  • Waters, T., Lu, M., Werren, D., & Piacitelli, L. (2011). Human posture simulation to assess cumulative spinal load due to manual lifting: Part I. Method. Theoretical Issues in Ergonomics Science, 12, 176188.
  • Xu, X., & Chang, C. (2011). The validity and interrater reliability of video-based posture observation during asymmetric lifting tasks. Human Factors, 53, 371382.
  • Yen, T. Y., & Radwin, R. G. (1995). A video-based system for acquiring biomechanical data synchronized with arbitrary events and activities. IEEE Transactions on Biomechanical Engineering, 42, 944948.