Low-back disorder risk in automotive parts distribution

Abstract The purpose of this study was to characterize the low-back disorder (LBD) risk in jobs found in automotive parts distribution centers. This descriptive study analyzed 53 jobs at seven automotive distribution facilities in the northern United States. Data were collected using the Lumbar Motion Monitor (LMM) and analyzed using the LMM LBD risk model. To assess the reliability of the sampling process, split-test reliability coefficients were calculated and found to be 0.90. Results indicate that, on average, the jobs in automotive parts distribution are moderately high risk (mean=56%, s.d.=11%); however, nearly half the sample had LMM LBD risk probability values greater than the 60% mark that has been used as a cut point in defining “high” risk [Marras W.S. et al., 2000. Prospective validation of a low-back disorder risk model and assessment of ergonomic interventions associated with manual materials handling tasks. Ergonomics 43, 1866–1886]. Many of the jobs contain trunk motions that are associated with high LBD risk; however, many of these same jobs had relatively low lifting frequencies which moderated the risk estimates. Relevance to industry This study benchmarks the LBD risk levels within automotive parts distribution.

[1]  W. Monroe Keyserling,et al.  Case Studies of Ergonomic Interventions in Automotive Parts Distribution Operations , 2004, Journal of Occupational Rehabilitation.

[2]  D B Chaffin Manual materials handling: the cause of over-exertion injury and illness in industry. , 1979, Journal of environmental pathology and toxicology.

[3]  G B Andersson,et al.  Comparison of five methods used to determine low back disorder risk in a manufacturing environment. , 1999, Spine.

[4]  D B Chaffin,et al.  A longitudinal study of low-back pain as associated with occupational weight lifting factors. , 1973, American Industrial Hygiene Association journal.

[5]  W S Marras,et al.  Prospective validation of a low-back disorder risk model and assessment of ergonomic interventions associated with manual materials handling tasks , 2000, Ergonomics.

[6]  W. G. Allread,et al.  The Role of Dynamic Three-Dimensional Trunk Motion in Occupationally-Related Low Back Disorders: The Effects of Workplace Factors, Trunk Position, and Trunk Motion Characteristics on Risk of Injury , 1993, Spine.

[7]  G. Andersson,et al.  The epidemiology of spinal disorders , 1997 .

[8]  John W. Frymoyer,et al.  The adult spine : principles and practice , 1991 .

[9]  D. Spengler,et al.  Back Injuries in Industry: A Retrospective Study: II. Injury Factors , 1986, Spine.

[10]  Susan Pardee Baker,et al.  Using multiple information sources to identify opportunities for ergonomic interventions in automotive parts distribution: a case study. , 2003 .