Comparison of next-generation portable pollution monitors to measure exposure to PM(2.5) from household air pollution in Puno, Peru
Burrowes, Vanessa J.; Piedrahita, Ricardo; Pillarisetti, Ajay; Underhill, Lindsay J.; Fandino-Del-Rio, Magdalena; Johnson, Michael; Kephart, Josiah L.; Hartinger Peña, Stella Maria; Steenland, Kyle; Naeher, Luke; Kearns, Katie; Peel, Jennifer L.; Clark, Maggie L.; Checkley, William; Balakrishnan, Kalpana; Checkley, William; Clasen, Thomas; McCracken, John; Peel, Jennifer; Rosa, Ghislaine; Rosenthal, Joshua; Steenland, Kyle; Thompson, Lisa; Aravindalochanan, Vigneswari; Balakrishnan, Kalpana; Garg, Sarada; Thangavel, Gurusamy; Mukhopadhyay, Krishnendu; Puttaswamy, Naveen; Sambandam, Sankar; De Leon, Oscar; Mollinedo, Erick; Diaz, Anaite; Pineda Fuentes, Irma Sayury; McCracken, John; Thompson, Lisa; Burrowes, Vanessa; Canuz, Eduardo; Checkley, William; Chiang, Marilu; Hartinger Peña, Stella Maria; Herrera, Phabiola; Laws, Margaret; Moulton, Lawrence; Simkovich, Suzanne; Underhill, Lindsay; Williams, Kendra; Ntivuguruzwa, Jean de Dieu; Kirby, Miles; Majorin, Fiona; Nambajimana, Abidan; Ndagijimana, Florien; Rosa, Ghislaine; Uwizeyimana, Jean; Harvey, Steven; Howard, Marjorie; Miranda, J. Jaime; Puzzolo, Elisa; Quinn, Ashlinn; Sakas, Zoe; Williams, Kendra; Barr, Dana; Campbell, Julia McPeek; Clark, Maggie; Gupton, Savannah; Rajkumar, Sarah; Ryan, Barry; Young, Bonnie; Chang, Howard; Chen, Yunyun; Elon, Lisa; Jaacks, Lindsay; Jabbarzadeh, Shirin; Lovvorn, Amy; Nizam, Azhar; Verma, Amit; Waller, Lance; Checkley, William; Craik, Rachel; Merrick, Rachel; Davila-Roman, Victor; de la Fuentes, Lisa; Papageorghiou, Aris; Toenjes, Ashley; Johnson, Michael; Liao, Jiawen; Naeher, Luke; Piedrahita, Ricardo; Pillarisetti, Ajay; Sarnat, Jeremy; Smith, Kirk; Chiang, Marilu; Diaz, Anaite; Jaacks, Lindsay; Kirby, Miles; Ramakrishnan, Usha; Thompson, Lisa; Sinharoy, Sheela; Checkley, William; Clasen, Thomas; Crocker, Mary; Goodman, Dina; Hossen, Shakir; Kirby, Miles; McCollum, Eric; McCracken, John; Peel, Jennifer; Rosa, Ghislaine; Simkovich, Suzanne; Steenland, Kyle; Garg, Sarada; Thangavel, Gurusamy; Thompson, Lisa; Canuz, Eduardo; Diaz, Anaite; Laws, Margaret; Lovvorn, Amy; Herrera, Phabiola; Thangavel, Gurusamy; Uwizeyimana, Jean; Gabriel Espinoza, Juan
Date:
2020
Abstract:
Assessment of personal exposure to PM2.5 is critical for understanding intervention effectiveness and exposure-response relationships in household air pollution studies. In this pilot study, we compared PM2.5 concentrations obtained from two next-generation personal exposure monitors (the Enhanced Children MicroPEM or ECM; and the Ultrasonic Personal Air Sampler or UPAS) to those obtained with a traditional Triplex Cyclone and SKC Air Pump (a gravimetric cyclone/pump sampler). We co-located cyclone/pumps with an ECM and UPAS to obtain 24-hour kitchen concentrations and personal exposure measurements. We measured Spearmen correlations and evaluated agreement using the Bland-Altman method. We obtained 215 filters from 72 ECM and 71 UPAS co-locations. Overall, the ECM and the UPAS had similar correlation (ECM rho = 0.91 vs UPAS rho = 0.88) and agreement (ECM mean difference of 121.7 mu g/m(3) vs UPAS mean difference of 93.9 mu g/m(3)) with overlapping confidence intervals when compared against the cyclone/pump. When adjusted for the limit of detection, agreement between the devices and the cyclone/pump was also similar for all samples (ECM mean difference of 68.8 mu g/m(3) vs UPAS mean difference of 65.4 mu g/m(3)) and personal exposure samples (ECM mean difference of -3.8 mu g/m(3) vs UPAS mean difference of -12.9 mu g/m(3)). Both the ECM and UPAS produced comparable measurements when compared against a cyclone/pump setup.
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