Biodynamics Laboratory, The Ohio State University, 1971 Neil Avenue, Columbus, OH 43210, USA.
Spine (Phila Pa 1976). 2010 Apr 15;35(8):914-23. doi: 10.1097/BRS.0b013e3181ce1201.
Prospective field study of work exposure and changes in back function.
Quantify dynamic physical exposures in the workplace and their association with decreases in kinematic back function (indicative of low back pain [LBP]).
Previous epidemiologic studies of work have measured gross categories of exposure and found moderate relationships with LBP. More precise quantitative measures of exposure and spine function were hypothesized to increase the chances of identifying any significant associations.
Three hundred and ninety real-time physical exposure measures were collected from distribution center workers performing repetitive manual materials handling tasks. Low back health effect measures were quantitatively measured prospectively for workers performing each of the jobs using a kinematic measure of function.
Significant decreases in spine function were observed in workers associated with 40% of the jobs sampled. Numerous significant univariate odds ratios were identified that indicated an association between physical exposure and decreased function. A multivariate model including right lateral trunk velocity, timing of the maximum dynamic asymmetric load moment exposure, and the magnitude of the dynamic sagittal bending moment predicted reduced spine function well. The model resulted in excellent sensitivity (85%) and specificity (87.5%) as well as excellent positive predictive value (89.5%) and negative predictive value (82.4%).
This study suggests that with proper quantification of job exposure and spine function, it is possible to identify which dynamic physical exposures are associated with reduced spine function and increases in LBP.
工作暴露和背部功能变化的前瞻性现场研究。
量化工作场所的动态物理暴露,并研究其与运动功能下降(提示腰痛[LBP])之间的关系。
先前对工作的流行病学研究已经测量了暴露的总体类别,并发现与 LBP 之间存在中度关系。假设更精确的定量暴露和脊柱功能测量可以增加确定任何显著关联的机会。
从执行重复性手动物料搬运任务的配送中心工人中收集了 390 个实时物理暴露测量值。使用功能的运动学测量值对执行每个工作的工人的背部健康效果进行前瞻性定量测量。
在所采样的 40%的工作中观察到脊柱功能明显下降。许多具有显著单变量优势比的结果表明,物理暴露与功能下降之间存在关联。一个包含右侧侧躯干速度、最大动态不对称负荷时刻暴露的时机以及动态矢状弯曲力矩的大小的多变量模型很好地预测了脊柱功能的下降。该模型具有出色的灵敏度(85%)和特异性(87.5%),以及出色的阳性预测值(89.5%)和阴性预测值(82.4%)。
这项研究表明,通过正确量化工作暴露和脊柱功能,有可能确定哪些动态物理暴露与脊柱功能下降和 LBP 增加有关。
