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Exposure to fine particulate matter (PM 2.5 ) is a major contributor to the global human disease burden. The indoor environment is of particular importance when considering the health effects associated with PM 2.5 exposures because people spend the majority of their time indoors and PM 2.5 exposures per unit mass emitted indoors are two to three orders of magnitude larger than exposures to outdoor emissions. Variability in indoor PM 2.5 intake fraction ( in,total ), which is defined as the integrated cumulative intake of PM 2.5 per unit of emission, is driven by a combination of building-specific, human-specific, and pollutant-specific factors. Due to a limited availability of data characterizing these factors, however, indoor emissions and intake of PM 2.5 are not commonly considered when evaluating the environmental performance of product life cycles. With the aim of addressing this barrier, a literature review was conducted and data characterizing factors influencing in,total were compiled. In addition to providing data for the calculation of in,total in various indoor environments and for a range geographic regions, this paper discusses remaining limitations to the incorporation of PM 2.5 -derived health impacts into life cycle assessments and makes recommendations regarding future research.
Hodas et al. (Thu,) studied this question.