Title
Comparison of two expert-based assessments of diesel exhaust exposure in a case-control study: Programmable decision rules versus expert review of individual jobs
Author
Pronk, A.
Stewart, P.A.
Coble, J.B.
Katki, H.A.
Wheeler, D.C.
Colt, J.S.
Baris, D.
Schwenn, M.
Karagas, M.R.
Johnson, A.
Waddell, R.
Verrill, C.
Cherala, S.
Silverman, D.T.
Friesen, M.C.
Publication year
2012
Abstract
Objectives: Professional judgment is necessary to assess occupational exposure in population-based case-control studies; however, the assessments lack transparency and are time-consuming to perform. To improve transparency and efficiency, we systematically applied decision rules to questionnaire responses to assess diesel exhaust exposure in the population-based case-control New England Bladder Cancer Study. Methods: 2631 participants reported 14 983 jobs; 2749 jobs were administered questionnaires ('modules') with diesel-relevant questions. We applied decision rules to assign exposure metrics based either on the occupational history (OH) responses (OH estimates) or on the module responses (module estimates); we then combined the separate OH and module estimates (OH/module estimates). Each job was also reviewed individually to assign exposure (one-by-one review estimates). We evaluated the agreement between the OH, OH/module and one-by-one review estimates. Results: The proportion of exposed jobs was 20-25% for all jobs, depending on approach, and 54-60% for jobs with diesel-relevant modules. The OH/module and one-by- one review estimates had moderately high agreement for all jobs (κw=0.68-0.81) and for jobs with diesel-relevant modules (κw=0.62-0.78) for the probability, intensity and frequency metrics. For exposed subjects, the Spearman correlation statistic was 0.72 between the cumulative OH/module and one-by-one review estimates. Conclusions: The agreement seen here may represent an upper level of agreement because the algorithm and one-by-one review estimates were not fully independent. This study shows that applying decision-based rules can reproduce a one-by-one review, increase transparency and efficiency, and provide a mechanism to replicate exposure decisions in other studies.
Subject
Life
QS - Quality & Safety
EELS - Earth, Environmental and Life Sciences
Work and Employment
Workplace
Healthy Living
To reference this document use:
http://resolver.tudelft.nl/uuid:39c83f00-a73a-4429-a960-1d2ae5fd7aad
DOI
https://doi.org/10.1136/oemed-2011-100524
TNO identifier
464539
ISSN
1351-0711
Source
Occupational and Environmental Medicine, 69 (10), 752-758
Document type
article