Browsing by Author "Prévost, Michèle"

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    Considerations for large building water quality after extended stagnation
    Proctor, Caitlin R.; Rhoads, William J.; Keane, Tim; Salehi, Maryam; Hamilton, Kerry; Pieper, Kelsey J.; Cwiertny, David M.; Prévost, Michèle; Whelton, Andrew J. (Wiley, 2020-06-09)
    The unprecedented number of building closures related to the coronavirus disease (COVID-19) pandemic is concerning because water stagnation will occur in many buildings that do not have water management plans in place. Stagnant water can have chemical and microbiological contaminants that pose potential health risks to occupants. Health officials, building owners, utilities, and other entities are rapidly developing guidance to address this issue, but the scope, applicability, and details included in the guidance vary widely. To provide a primer of large building water system preventative and remedial strategies, peer-reviewed, government, industry, and nonprofit literature relevant to water stagnation and decontamination practices for plumbing was synthesized. Preventative practices to help avoid the need for recommissioning (e.g., routine flushing) and specific actions, challenges, and limitations associated with recommissioning were identified and characterized. Considerations for worker and occupant safety were also indicated. The intended audience of this work includes organizations developing guidance.
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    Experimental determination of the oral bioavailability and bioaccessibility of lead particles
    Deshommes, Elise; Tardif, Robert; Edwards, Marc A.; Sauvé, Sébastien; Prévost, Michèle (2012-11-22)
    In vivo estimations of Pb particle bioavailability are costly and variable, because of the nature of animal assays. The most feasible alternative for increasing the number of investigations carried out on Pb particle bioavailability is in vitro testing. This testing method requires calibration using in vivo data on an adapted animal model, so that the results will be valid for childhood exposure assessment. Also, the test results must be reproducible within and between laboratories. The Relative Bioaccessibility Leaching Procedure, which is calibrated with in vivo data on soils, presents the highest degree of validation and simplicity. This method could be applied to Pb particles, including those in paint and dust, and those in drinking water systems, which although relevant, have been poorly investigated up to now for childhood exposure assessment.