A Critical Review on the Experimental Setups Used to Assess the Efficiency of Respirators Against Ambient Particulate Matter

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A Critical Review on the Experimental Setups Used to Assess the Efficiency of Respirators Against Ambient Particulate Matter Publisher

Faridi S^{1, 2} ; Yousefian F³ ; Niazi S⁴ ; Ghalhari MR² ; Rafiee A⁵ ; Harrison RM^{6, 7} ; Brook RD⁸ ; Contini D⁹ ; Kumar P¹⁰ ; Naddafi K^{1, 2} ; Hassanvand MS^{1, 2} ; Carlsten C¹¹

Source: Atmosphere Published:2024

Abstract

Fine particulate matter (PM2.5) poses significant health risks, prompting public health organizations to recommend the use of respirators and facemasks (RFMs) to mitigate exposure. Consequently, interest in their usage has increased, leading to several studies assessing the efficiency of these personal-level interventions against various fractions of ambient particulate matter (PM). We conducted a comprehensive literature search across PubMed, Web of Science, and Scopus to identify relevant studies and address the following objectives: (1) explore the efficiency of RFMs in reducing ambient PM; (2) discuss discrepancies in efficiencies reported; (3) critique the experimental setups used to evaluate the efficiency of RFMs; and (4) propose recommendations for future research. Five relevant studies we reviewed reported significantly lower RFM effectiveness against ambient PM, with a size-dependent efficiency that decreases for smaller PM fractions. Variations in the reported efficiencies were primarily attributed to design-related factors, resulting in poor facial fit. Therefore, it is crucial to consider standardizing and properly designing these products. These studies overlooked essential factors, such as using dummy heads with flexible textures that mimic human skin. The use of rigid-textured dummy heads, as seen in previous studies, may fail to accurately represent real-world conditions. We recommend researchers take into account diverse facial profiles in their experiments. Moreover, it is essential to consider facial characteristics in the design of RFMs. We believe the evidence supports the increasing need for the adoption of appropriate guidelines and regulations to govern RFM suppliers at both national and international levels. © 2024 by the authors.

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Style	Citing Format
MLA	Faridi S, et al.. "A Critical Review on the Experimental Setups Used to Assess the Efficiency of Respirators Against Ambient Particulate Matter." Atmosphere, vol. 15, no. 12, 2024, pp. -.
APA	Faridi S, Yousefian F, Niazi S, Ghalhari MR, Rafiee A, Harrison RM, Brook RD, Contini D, Kumar P, Naddafi K, Hassanvand MS, Carlsten C (2024). A Critical Review on the Experimental Setups Used to Assess the Efficiency of Respirators Against Ambient Particulate Matter. Atmosphere, 15(12), -.
Chicago	Faridi S, Yousefian F, Niazi S, Ghalhari MR, Rafiee A, Harrison RM, Brook RD, et al.. "A Critical Review on the Experimental Setups Used to Assess the Efficiency of Respirators Against Ambient Particulate Matter." Atmosphere 15, no. 12 (2024): -.
Harvard	Faridi S et al. (2024) 'A Critical Review on the Experimental Setups Used to Assess the Efficiency of Respirators Against Ambient Particulate Matter', Atmosphere, 15(12), pp. -.
Vancouver	Faridi S, Yousefian F, Niazi S, Ghalhari MR, Rafiee A, Harrison RM, et al.. A Critical Review on the Experimental Setups Used to Assess the Efficiency of Respirators Against Ambient Particulate Matter. Atmosphere. 2024;15(12):-.
BibTex	@article{ author = {Faridi S and Yousefian F and Niazi S and Ghalhari MR and Rafiee A and Harrison RM and Brook RD and Contini D and Kumar P and Naddafi K and Hassanvand MS and Carlsten C}, title = {A Critical Review on the Experimental Setups Used to Assess the Efficiency of Respirators Against Ambient Particulate Matter}, journal = {Atmosphere}, volume = {15}, number = {12}, pages = {-}, year = {2024} }
RIS	TY - JOUR AU - Faridi S AU - Yousefian F AU - Niazi S AU - Ghalhari MR AU - Rafiee A AU - Harrison RM AU - Brook RD AU - Contini D AU - Kumar P AU - Naddafi K AU - Hassanvand MS AU - Carlsten C TI - A Critical Review on the Experimental Setups Used to Assess the Efficiency of Respirators Against Ambient Particulate Matter JO - Atmosphere VL - 15 IS - 12 SP - EP - PY - 2024 ER -

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