Finnish Institute of Occupational Health, FI-00250 Helsinki, Finland.
Scand J Work Environ Health. 2010 Jan;36(1):3-24. doi: 10.5271/sjweh.2876. Epub 2009 Nov 24.
This systematic review aimed to identify published observational methods assessing biomechanical exposures in occupational settings and evaluate them with reference to the needs of different users.
We searched scientific databases and the internet for material from 1965 to September 2008. Methods were included if they were primarily based on the systematic observation of work, the observation target was the human body, and the method was clearly described in the literature. A systematic evaluation procedure was developed to assess concurrent and predictive validity, repeatability, and aspects related to utility. At least two evaluators independently carried out this evaluation.
We identified 30 eligible observational methods. Of these, 19 had been compared with some other method(s), varying from expert evaluation to data obtained from video recordings or through the use of technical instruments. Generally, the observations showed moderate to good agreement with the corresponding assessments made from video recordings; agreement was the best for large-scale body postures and work actions. Postures of wrist and hand as well as trunk rotation seemed to be more difficult to observe correctly. Intra- and inter-observer repeatability were reported for 7 and 17 methods, respectively, and were judged mostly to be good or moderate.
With training, observers can reach consistent results on clearly visible body postures and work activities. Many observational tools exist, but none evaluated in this study appeared to be generally superior. When selecting a method, users should define their needs and assess how results will influence decision-making.
本系统评价旨在确定已发表的评估职业环境中生物力学暴露的观察方法,并根据不同使用者的需求对其进行评估。
我们从 1965 年至 2008 年 9 月检索了科学数据库和互联网上的资料。如果方法主要基于对工作的系统观察、观察目标是人体,并且文献中清楚地描述了该方法,则将其纳入。我们制定了一个系统的评估程序来评估同时性和预测性有效性、可重复性以及与实用性相关的方面。至少有两名评估人员独立进行了这项评估。
我们确定了 30 种合格的观察方法。其中,有 19 种方法已经与其他一些方法进行了比较,这些方法从专家评估到视频记录或使用技术仪器获得的数据不等。一般来说,这些观察结果与视频记录的相应评估结果之间具有中等至良好的一致性;对于大尺度的身体姿势和工作动作,一致性最佳。分别有 7 种和 17 种方法报告了内部和观察者间的可重复性,并且大多数被判断为良好或中等。
经过培训,观察者可以对明显可见的身体姿势和工作活动得出一致的结果。有许多观察工具存在,但在本研究中没有一种方法被评估为具有普遍优势。当选择一种方法时,用户应明确其需求,并评估结果将如何影响决策制定。
