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Evaluation and Quantification of Manual Materials Handling Risk Factors

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This study investigated the ability of the Revised NIOSH Lifting Equation (RNLE) to measure the risk of low back injury as verified by employee health outcomes. In addition, several basic risk factors and combinations of risk factors presumed related to low back disorders were explored. The RNLE was modified to allow analysis of one-handed and two-handed, asymmetric lifts. Predictive performance was not changed. Simplifying the RNLE by removing several variables did not significantly reduce the RNLE’s predictive performance. These modifications to the RNLE show promise for increasing both the usability and utility of the RNLE.
Rocznik
Strony
271--287
Opis fizyczny
Bibliogr. 45 poz., tab.
Twórcy
autor
  • Department of Mechanical Engineering, University of Utah, USA
autor
  • Department of Environmental Health, Colorado State University, USA
autor
  • Department of Mechanical Engineering, University of Utah, USA
  • Department of Mechanical Engineering, University of Utah, USA
autor
  • Department of Environmental Health, Colorado State University, USA
Bibliografia
  • 1.Burdorf, A., & Sorock, G. (1997). Positive and negative evidence of risk factors for back disorders. Scandinavian Journal of Work Environment and Health, 23(4), 243-256.
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  • 3.Capodaglio, P., Capodaglio, E., & Bazzini, G. (1997). A field methodology for ergonomic analysis in occupational manual materials handling. Applied Ergonomics, 28(3), 203-208.
  • 4.Cassidy, J.D., Carroll, L.J., & Cote, P. (1998). The Saskatchewan health and back pain survey: The prevalence of low back pain and related disability in Saskatchewan adults. Spine, 23(17), 1860-1866.
  • 5.Cassidy, D.J., & Wedge, J.H. (1988). The epidemiology and natural history of low back pain and spinal degeneration. In W.H. Kirkaldy-Willis (Ed.), Managing low back pain. (2nd ed., pp. 3-14). NY, NY, USA: Churchill Livingstone.
  • 6.Center to Protect Workers’ Rights (CPWR). (1997). The construction chart book. Washington, D.C., USA: Author.
  • 7.Ciriello, V.M., & Snook, S.H. (1999). Survey of manual handling tasks. International Journal of Industrial Ergonomics, 23, 149-156.
  • 8.Cleary, L., Thombs, D.L., Daniel, E.L., & Zimmerli, W.H. (1995). Occupational low back disability, effective strategies for reducing lost time. AAOHN Journal, 43(2), 87-94.
  • 9.Cote, P., Cassidy, J.D., & Carroll, L. (1998). The Saskatchewan health and back pain survey: The prevalence of neck pain and related disability in Saskatchewan adults. Spine, 23(15), 1689- 1698.
  • 10.Deyo, R.A. (1987). The role of primary care physician in reducing work absenteeism and costs due to back pain. In R.A Deyo (Ed.), Spine: State of the art reviews. Occupational back pain (pp. 17-30). Philadelphia, PA, USA: Hanley & Belfus.
  • 11.Fathallah, F., Marras, W., & Parnianpour, M. (1998a). An assessment of complex spinal loads during dynamic lifting tasks. Spine, 23(6), 706-716.
  • 12.Fathallah, F., Marras, W., & Parnianpour, M. (1998b). The role of complex simultaneous trunk motions in risk of occupation-related low back disorders. Spine, 23, 1035-1042.
  • 13.Grieco, A., Occipinti, E., Colombini, D., & Molteni, G. (1997). Manual handling of loads: The point of view of experts involved in the application of EC Directive 90/269. Ergonomics, 40(10), 1035-1056.
  • 14.Guo, H., Tanaka, S., Cameron, L., Seligman, P., Behrens, V., Ger, J., et al. (1995). Back pain among workers in the US: National estimates and workers at risk. American Journal of Industrial Medicine, 28(5), 591-602.
  • 15.Guo, H., Tanaka, S., Halperin, W., & Cameron, L. (1999). Back pain prevalence in US industry and estimates of lost workdays. American Journal of Public Health, 89(7), 1029-1035.
  • 16.Hagen, K.B., & Thune, O. (1998). Work incapacity from low back pain in the general population. Spine, 23(19), 2091-2095.
  • 17.Herrin, G., Jaraiede, M., & Anderson, C. (1986). Prediction of overexertion injuries using biomechanical and psychophysical models. American Industrial Hygiene Journal, 47(6), 322-330.
  • 18.Hidalgo, J., Genaidy, A., & Karwowski, W. (1997). A comprehensive lifting model: Beyond the NIOSH lifting equation. Ergonomics, 40(9), 916-927.
  • 19.Hoogendoorn, W.E., Poppel, M.N., Bongers, P.M., Koes, B.W., & Bouter, L.M. (1999). Physical load during work and leisure time as risk factors for back pain. Scandinavian Journal of Work and Environmental Health, 25(5), 387-403.
  • 20.Kahlil, T.M., Abdel-Moty, E.M., Rosomoff, R.S., & Rosomoff, H.L. (1993). Ergonomics in back pain. NY, NY, USA: Van Nostrand Reinhold.
  • 21.Karwowski, W., & Brokaw, N. (1992). Implications of the proposed revisions in a draft of the revised NIOSH lifting guide (1991) for job redesign: A field study. In Proceedings of the 36th Annual Meeting of the Human Factors Society, Atlanta, GA (pp. 659-663). Santa Monica, CA, USA: Human Factors Society.
  • 22.Karwowski, W., & Gaddie, P. (1995). Simulation of the 1991 revised NIOSH manual lifting equation. In Proceedings of the Human Factors Society 39th Annual Meeting, San Diego, CA (pp. 699-703). Santa Monica, CA, USA: Human Factors and Ergonomics Society.
  • 23.Kelsey, J.L., & Golden, A.L. (1987). Occupational and workplace factors associated with low back pain. In R.A. Deyo (Ed.), Spine: State of the art reviews. Occupational back pain (pp. 7-13). Philadelphia, PA, USA: Hanley & Belfus.
  • 24.Kelsey, J.L., & White, A.A. (1980). Epidemiology and impact of low-back pain. Spine, 5(2), 133-142.
  • 25.Lavender, S., Oleske, D., Nicholson, L., Andersson, G., & Hahn, J. (1999). Comparison of five methods used to determine low back disorder risk in a manufacturing environment. Spine, 24(14), 1441-1448.
  • 26.Li, G., & Buckle, P. (1999). Current techniques for assessing physical exposure to work-related musculoskeletal risks, with emphasis on posture based methods. Ergonomics, 42(5), 674-695.
  • 27.Marras, W., Fine, L., Ferguson, S., & Waters, T. (1999). The effectiveness of commonly used lifting assessment methods to identify industrial jobs associated with elevated risk of low-back disorders. Ergonomics, 42(1), 229-245.
  • 28.Marras, W., Levender, S., Leugans, S., Fathallah, F., Ferguson, S., Allread, et al. (1995). Biomechanical risk factors or occupationally related low back disorders. Ergonomics, 38(2), 377-410.
  • 29.Marras, W., Levender, S., Leurgfans, S., Rajulu, S., Allread, W., Fathallah, F., et al. (1993). The role of dynamic three-dimensional trunk motion in occupationally related low back disorders. Spine, 18(5), 617-628.
  • 30.Mirka, G., Kelaher, D., Nay, D., & Lawrence, B. (2000). Continuous assessment of back stress (CABS): A new method to quantify low-back stress in jobs with variable biomechanical demands. Human Factors, 42(2), 209-225.
  • 31.Mital, A., Nicholson, A., & Ayoub, M. (1997). A guide to manual materials handling (2nd ed.). London, UK: Taylor & Francis.
  • 32.National Institute for Occupational Safety and Health (NIOSH). (1996). National occupational research agenda (Publication No. 96-115). Cincinnati, OH, USA: U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, NIOSH.
  • 33.National Institute of Occupational Safety and Health (NIOSH). (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 (Publication No. 97-141). Cincinnati, OH, USA: U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, NIOSH.
  • 34.Neumann, W., Wells, R., Norman, R., Andrews, D., Frank, J., Shannon, H., et al. (1999). Comparison of four spinal loading measurement methods and their association with low back pain. Scandinavian Journal of Work Environment and Health, 25(5), 404-409.
  • 35.Norman, R., Wells, R., Neumann, P., Frank, J., Shannon, H., & Kerr, M. (1998). A comparison of peak vs. cumulative physical work exposure risk factors for the reporting of low back pain in the automotive industry. Clinical Biomechanics, 13(8), 561-573.
  • 36.Occupational Safety and Health Administration (OSHA). (1993). Back injuries-Nation’s number one workplace safety problem (OSHA Fact Sheet 93-09). Retrieved July 11, 2000, from http://www.osha-slc.gov/OshDoc/Fact_data/FSNO93-09.html
  • 37.Potvin, J. (1997). Use of NIOSH equation inputs to calculate lumbosacral compression forces. Ergonomics, 40, 691-707.
  • 38.Riihimaki, H., Tola, T., Videman, T., & Hanninen, K. (1989). Low-back pain and occupation: A cross-sectional questionnaire study of men in machine, operating, dynamic physical work, and sedentary work. Spine, 14(2), 204-209.
  • 39.Rosenstock, L. (1997). The science of musculoskeletal disorders (Publication No. 97-142). Cincinnati, OH, USA: U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute of Occupational Safety and Health (NIOSH).
  • 40.Shoaf, C., Genaidy, A., Karwowski, W., Waters, T., & Christensen, D. (1997). Comprehensive manual handling limits for lowering, pushing, pulling and carrying activities. Ergonomics, 40(11), 1183-1200.
  • 41.Vingard, E., Alfredsson, L., Hagberg, M., Kilbom, A., Theorell, T. Waldenstrom, M., et al. (2000). To what extent do current and past physical and psychosocial occupational factors explain care-seeking for low back pain in a working population? Spine, 25(4), 493-500.
  • 42.Waters, T., Baron, S., Piacitelli, L., Anderson, V., Skov, T., Haring-Sweeney, M., et al. (1999). Evaluation of the revised NIOSH lifting equation. Spine, 24(4), 386-395.
  • 43.Waters, T., Putz-Anderson, V., & Garg, A. (1994). Applications manual for the revised NIOSH equation (Publication No. 94-110). Cincinnati, OH, USA: U.S. Department of Health and Human Services, Centers for Disease Control and Prevention, National Institute of Occupational Safety and Health (NIOSH).
  • 44.Waters, T., Putz-Anderson, V., Garg, A., & Fine, L.J. (1993). Revised NIOSH equation for the design and evaluation of manual lifting tasks. Ergonomics, 36(7), 749-776.
  • 45.Zurada, J., Karwowski, W., & Marras, W. (1997). A neural network-based system for classification of industrial jobs with respect to risk of low back disorders due to workplace design. Applied Ergonomics, 28(1), 49-58.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d72a3ddd-a7c8-4631-89ef-2d8055725252
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