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Reported exposures to respirable crystalline silica during construction tasksand guidance for harmonizing future research

By Taylor A. Burnham, MPH, Consultant

Abstract

Airborne respirable crystalline silica (RCS) has been a widely recognized hazard in the United States for nearly 100 years, yet it continues to pose a risk to construction tradespersons, among others. RCS exposures vary widely depending on site conditions and tools and materials used. The proper use of engineering, administrative, and personal protective equipment (PPE) controls can effectively reduce exposure to RCS. Historically, others have reviewed available RCS exposure data among construction trades and reported that there were considerable data gaps and variability that needed to be addressed. This current assessment aimed to synthesize available peer-reviewed exposure studies to determine potential RCS exposures during the use of common construction materials and evaluate to what extent data gaps and variability persist. Twenty-eight studies were identified that reported RCS exposure during construction tasks. After conversion to the unit of µg/m3, reported measurements from samples collected for varying durations ranged from 6.0 to75,500 µg/m3 for work with concrete, 80 to 4,240 µg/m3 for work with brick, <59 to10,900 µg/m3 for work with mortar, 90 to 44,370 µg/m3for work with engineered stone, and70 to 380 µg/m3 for work with roof tile. To better facilitate pooling data across studies, future researchers should report their sample duration, clarify how time-weighted average (TWA) exposure data are calculated, report the silica content of the material being manipulated, and specify whether samples were collected while the task was performed in isolation or on a worksite where other silica-containing materials were also actively handled. Whenreporting results as respirable quartz, it is important to note whether any other polymorphic forms of silica were detected. It is ultimately the employer’s responsibility to train employees and monitor and control RCS exposures on construction worksites. To do this effectively, it is important to have a clear understanding of the tasks, materials, and site conditions where intervention is most urgently needed.

Neva F. B. Jacobs(a), Rachel E. Zisook(b), and Taylor A. Tarpey(c); (a) Stantec ChemRisk, Washington, DC; (b) Stantec ChemRisk, San Francisco, California; (c) Integral Consulting, Boulder, Colorado.

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About The Author

Ms. Taylor Burnham is an occupational health and safety professional with 6 years of experience in consulting, project management, fieldwork... Full bio