Abstract
Biomechanical models for predicting spinal compression forces are often used to assess industrial jobs with respect to the potential for low-back injury. However, there are a variety of optimization-based model formulations available for estimating internal forces from joint reaction moments in three-dimensional analyses. The question addressed in this study was, how much does the choice of model formulation affect spinal compression force estimates when analysing industrial tasks? Forty-one work postures in an aluminium reduction facility were selected for analysis. The postures were entered from videotape, and a static three-dimensional biomechanical model was used to compute the L2/L3 moments about the sagittal, frontal, and transverse planes. The shear and compression forces acting on the spine were computed from the L2/L3 moments using four optimization model formulations (minimize the sum of squared muscle stresses, sum of cubed muscle stresses, spinal compression, and a combination of maximum muscl...
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