Optimising sampling strategies: components of low-back EMG variability in five heavy industries

Trask, Catherine; Teschke, Kay; Morrison, J. B.; Johnson, Peter W.; Koehoorn, Mieke

doi:10.1136/oem.2010.055541

Cited by 2 publications

(1 citation statement)

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“…This strategy would permit the usage of already published literature reporting physical exposure variance components. For example, there already exist reports of biomechanical exposure variance components for diverse occupations such as hairdressers [15], office, custodial, and maintenance workers [33], and heavy industrial occupations [34]. There are also some studies using variance components to estimate precision of exposure assessments [14,15,35,36].…”

Section: Discussionmentioning

confidence: 99%

Data processing costs for three posture assessment methods

Trask

Mathiassen

Jackson

et al. 2013

BMC Med Res Methodol

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BackgroundData processing contributes a non-trivial proportion to total research costs, but documentation of these costs is rare. This paper employed a priori cost tracking for three posture assessment methods (self-report, observation of video, and inclinometry), developed a model describing the fixed and variable cost components, and simulated additional study scenarios to demonstrate the utility of the model.MethodsTrunk and shoulder postures of aircraft baggage handlers were assessed for 80 working days using all three methods. A model was developed to estimate data processing phase costs, including fixed and variable components related to study planning and administration, custom software development, training of analysts, and processing time.ResultsObservation of video was the most costly data processing method with total cost of € 30,630, and was 1.2-fold more costly than inclinometry (€ 26,255), and 2.5-fold more costly than self-reported data (€ 12,491). Simulated scenarios showed altering design strategy could substantially impact processing costs. This was shown for both fixed parameters, such as software development and training costs, and variable parameters, such as the number of work-shift files processed, as well as the sampling frequency for video observation. When data collection and data processing costs were combined, the cost difference between video and inclinometer methods was reduced to 7%; simulated data showed this difference could be diminished and, even, reversed at larger study sample sizes. Self-report remained substantially less costly under all design strategies, but produced alternate exposure metrics.ConclusionsThese findings build on the previously published data collection phase cost model by reporting costs for post-collection data processing of the same data set. Together, these models permit empirically based study planning and identification of cost-efficient study designs.

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