The impact of drywall handling tools on the low back.

Carpenters and other construction workers who install drywall have high rates of strains and sprains to the low back and shoulder. Drywall is heavy and awkward to handle resulting in increased risk of injury. The purpose of this study was to evaluate several low-cost coupling tools that have the potential to reduce awkward postures in drywall installers. Five coupling tools were evaluated using the Lumbar Motion Monitor that measures trunk kinematics and predicts probability of low back disorder group membership risk (LBD risk). Workers answered surveys about their comfort while using each tool. The results indicate that use of the 2-person manual lift and the J-handle provide the best reduction in awkward postures, motions, low back sagittal moment, and LBD risk. The two-person manual lift appears to be the safest method of lifting and moving drywall, though using the two-person J-handle also significantly reduces injury risk. Given that carpenters are skeptical about using equipment that can get in the way or get lost, a practical recommendation is promotion of two-person manual lifting. For single-person lifts, the Old Man tool is a viable option to decrease risk of MSDs.

[1]  A Garg,et al.  Revised NIOSH equation for the design and evaluation of manual lifting tasks. , 1993, Ergonomics.

[2]  A Shirazi-Adl,et al.  Strain in Fibers of a Lumbar Disc: Analysis of the Role of Lifting in Producing Disc Prolapse , 1989, Spine.

[3]  H J Lipscomb,et al.  Work-related injuries in drywall installation. , 2000, Applied occupational and environmental hygiene.

[4]  Steven Hecker,et al.  A participatory ergonomics intervention to reduce risk factors for low-back disorders in concrete laborers. , 2004, Applied ergonomics.

[5]  Waldemar Karwowski,et al.  Industrial Lumbar Motion Monitor , 2006 .

[6]  W S Marras,et al.  An Assessment of Complex Spinal Loads During Dynamic Lifting Tasks , 1998, Spine.

[7]  K P Granata,et al.  Spine loading and trunk kinematics during team lifting. , 1999, Ergonomics.

[8]  W. Marras,et al.  A Biomechanical Assessment and Model of Axial Twisting in the Thoracolumbar Spine , 1995, Spine.

[9]  W. Marras,et al.  Spine loading during trunk lateral bending motions. , 1997, Journal of biomechanics.

[10]  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.

[11]  W S Marras,et al.  Lumbar Motion Response to a Constant Load Velocity Lift , 1990, Human factors.

[12]  W S Marras,et al.  The effects of motion on trunk biomechanics. , 2000, Clinical biomechanics.

[13]  Hester J Lipscomb,et al.  Work-related injuries in residential and drywall carpentry. , 2003, Applied occupational and environmental hygiene.

[14]  W S Marras,et al.  Trunk Strength during Asymmetric Trunk Motion , 1989, Human factors.

[15]  Bryan Buchholz,et al.  Estimation of Muscle Contraction Forces and Joint Reaction Forces at the Low Back and Shoulder during Drywall Installation , 2007 .

[16]  Christopher S. Pan,et al.  Analysis of biomechanical stresses during drywall lifting , 1999 .

[17]  John C Rosecrance,et al.  Test-retest reliability of a self-administered musculoskeletal symptoms and job factors questionnaire used in ergonomics research. , 2002, Applied occupational and environmental hygiene.

[18]  A Shirazi-Adl,et al.  Finite-Element Evaluation of Contact Loads on Facets of an L2-L3 Lumbar Segment in Complex Loads , 1991, Spine.

[19]  W S Marras,et al.  Muscle activities during asymmetric trunk angular accelerations , 1990, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[20]  Laurel Kincl,et al.  Ergonomic evaluation of an extension screw gun to improve work postures , 2008 .