Quantitative filter forensics with residential HVAC filters to assess indoor concentrations

Givehchi, Raheleh; Maestre, Juan P.; Bi, Chenyang; Wylie, Dennis; Xu, Ying; Kinney, Kerry A.; Siegel, Jeffrey A.

doi:10.1111/ina.12536

Cited by 20 publications

(20 citation statements)

References 69 publications

(151 reference statements)

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“…The majority of interest in microbiology of the built environment has focused on microbially-mediated building deterioration or detriment to occupant health from specific microorganisms of interest. Despite advances in awareness of the potential for microbial exposure indoors [33], microorganisms in the built environment are still considered as debris to be removed, instead of members of a microbial ecosystem which is inexorably linked to the influences of building inhabitants [29,31,[34][35][36][37]. Given the propensity for microbial biofilms or overgrowth to pose a threat to the health of occupants, it is not difficult to understand why.…”

Section: From Fear To Reluctant Acceptance Of the Microbial Worldmentioning

confidence: 99%

Building upon current knowledge and techniques of indoor microbiology to construct the next era of theory into microorganisms, health, and the built environment

Horve

Lloyd

Mhuireach

et al. 2019

J Expo Sci Environ Epidemiol

111

103

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In the constructed habitat in which we spend up to 90% of our time, architectural design influences occupants' behavioral patterns, interactions with objects, surfaces, rituals, the outside environment, and each other. Within this built environment, human behavior and building design contribute to the accrual and dispersal of microorganisms; it is a collection of fomites that transfer microorganisms; reservoirs that collect biomass; structures that induce human or air movement patterns; and space types that encourage proximity or isolation between humans whose personal microbial clouds disperse cells into buildings. There have been recent calls to incorporate building microbiology into occupant health and exposure research and standards, yet the built environment is largely viewed as a repository for microorganisms which are to be eliminated, instead of a habitat which is inexorably linked to the microbial influences of building inhabitants. Health sectors have re-evaluated the role of microorganisms in health, incorporating microorganisms into prevention and treatment protocols, yet no paradigm shift has occurred with respect to microbiology of the built environment, despite calls to do so. Technological and logistical constraints often preclude our ability to link health outcomes to indoor microbiology, yet sufficient study exists to inform the theory and implementation of the next era of research and intervention in the built environment. This review presents built environment characteristics in relation to human health and disease, explores some of the current experimental strategies and interventions which explore health in the built environment, and discusses an emerging model for fostering indoor microbiology rather than fearing it.

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Section: From Fear To Reluctant Acceptance Of the Microbial Worldmentioning

confidence: 99%

Building upon current knowledge and techniques of indoor microbiology to construct the next era of theory into microorganisms, health, and the built environment

Horve

Lloyd

Mhuireach

et al. 2019

J Expo Sci Environ Epidemiol

111

103

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“…The quantitative filter forensics approach by Haaland and Siegel (2017) was used in this work (Table S2) to estimate the temporally and spatially integrated airborne concentration (C) of SARS-CoV-2 over the viral collection time period. The following parameters were used for the calculation: m was the mass of dust (g) collected in the HVAC filter, f was the concentration of SARS-CoV-2 (N2 gene copies/g) in the dust collected on the filter, η was the integrated particulate matter filtration efficiency of the MERV-4 filter, Q was the volumetric air flowrate (m 3 /h) through the filter (median for the summer season for the same geographical location, (Givehchi et al, 2019) and t was the runtime of the HVAC system (h) over the duration of the SARS-CoV-2 collection time -approximately one month-, median for the summer season for the same geographical location, (Givehchi et al, 2019). A few considerations that ought to be taken into account are: (1) our estimate does not account for the attenuation of the signal over time or the losses due to deposition, (2) it considers the estimate that approximately 5.5% of the viral signal is recovered through RNA extraction from the dust matrix (as estimated in this work via the spike and recovery tests for the surrogate BRSV virus), (3) the mass recovered by the participants was estimated to be 68% of that recoverable by trained researcher (based on previous experiments comparing researcher-collected samples to participant-collected samples), and (4) that approximately 27% of the accumulated dust can be recovered from the filter (Mahdavi and Siegel, 2020).…”

Section: Methodsmentioning

confidence: 99%

“…The fact that the SARS-CoV-2 virus can be recovered from HVAC filter dust is not too surprising given that previous research has demonstrated that filters from central HVAC systems can serve as long-term spatially integrated samplers of the indoor environment. The filter forensics approach has been used for the assessment of particle-bond contaminants that accumulate in the dust collected on HVAC filters (Bi et al, 2018; Givehchi et al, 2019; Maestre et al, 2018; Noris et al, 2011) including viruses (Goyal et al, 2011; Prussin et al, 2016). When this approach is combined with HVAC parameters such as flowrate through the filter and usage time, it is possible to quantitatively estimate the time-averaged indoor concentrations of the particle-bound contaminants (Givehchi et al, 2019; Haaland and Siegel, 2017).…”

Section: Introductionmentioning

confidence: 99%

“…The filter forensics approach has been used for the assessment of particle-bond contaminants that accumulate in the dust collected on HVAC filters (Bi et al, 2018; Givehchi et al, 2019; Maestre et al, 2018; Noris et al, 2011) including viruses (Goyal et al, 2011; Prussin et al, 2016). When this approach is combined with HVAC parameters such as flowrate through the filter and usage time, it is possible to quantitatively estimate the time-averaged indoor concentrations of the particle-bound contaminants (Givehchi et al, 2019; Haaland and Siegel, 2017). This approach has not yet been used to estimate SARS-CoV-2 airborne concentrations but this could be possible if the SARS-CoV-2 concentrations in home HVAC filter dust were known.…”

Section: Introductionmentioning

confidence: 99%

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Distribution of SARS-CoV-2 RNA Signal in a Home with COVID-19 Positive Occupants

Maestre

Jarma

et al. 2020

Preprint

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Although many COVID-19 patients quarantine and recover at home, the dispersal of SARS-CoV-2 onto surfaces and dust within the home environment remains poorly understood. To investigate the distribution and persistence of SARS-CoV-2 in a quarantine home, samples were collected from a household with two confirmed COVID-19 cases (one adult and one child). Home surface swab and dust samples were collected two months after symptom onset (and one month after symptom resolution) in the household. The strength of the SARS-CoV-2 molecular signal in fomites varied as a function of sample location, surface material and cleaning practices. Notably, the SARS-CoV-2 RNA signal was detected at several locations throughout the household although cleaning appears to have attenuated the signal on many surfaces. Of the 24 surfaces sampled, 46% were SARS-CoV-2 positive at the time of sampling. The SARS-CoV-2 concentrations in dust recovered from floor and HVAC filter samples ranged from 104-105 N2 gene copies/g dust. While detection of viral RNA does not imply infectivity, this study confirms that the SARS-CoV-2 RNA signal can be detected at several locations within a COVID-19 quarantine home and can persist after symptoms have resolved. In addition, the concentration of SARS-CoV-2 (normalized per unit mass of dust) recovered in home HVAC filters may prove useful for estimating SARS-CoV-2 airborne levels in homes.

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“…Filter forensics has several benefits over other conventional particle exploration techniques such as airborne sampling and settled dust collection. When used in a fully recirculating distribution system and combined with the HVAC metadata (e.g., filter efficiency, runtime, and airflow rate), filter forensics provides a quantitative time-and space-integrated estimate of indoor particle characteristics due to a long-term passing of indoor air from the entire conditioned space through the filter (Stanley et al 2008;Batterman et al 2010;Haaland and Siegel 2017;Givehchi et al 2019). Airborne sampling and settled dust are often not spatially and temporally representative of indoor particles.…”

Section: Introductionmentioning

confidence: 99%

Extraction of dust collected in HVAC filters for quantitative filter forensics

Mahdavi

Siegel

2020

Aerosol Science and Technology

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The analysis of dust collected on the filters installed in the heating, ventilation, and airconditioning (HVAC) systems, filter forensics, is a useful approach to explore concentration, size distribution, and composition of indoor particles. The extraction of dust from filters represents one of the biggest challenges to obtain accurate results from filter forensics. Although vacuuming is one of the most common dust extraction techniques, it is unclear how efficient it is and whether it provides a representative sample in terms of particle size. In this article, we used a high-capacity vacuum sampler to extract dust from 20 filters artificially loaded with well-characterized test dust as well as from 41 filters naturally loaded in residential HVAC systems. After all extractions, we recovered 0.1-5.5 g and 0.02-11.4 g of dust from the artificially and naturally loaded filters, respectively. These ranges were equivalent to 11.3-52.2% and 1.8-72.9% recovery efficiency, the ratio of dust recovered to the dust loaded in the filters. Multiple extractions were found to be an effective strategy to add to the recovery to enable filter forensics for the detection of multiple analytes. The recovered samples were slightly over-representative of particles greater than 10 mm. Therefore, caution should be taken when applying filter forensics for studying contaminants associated with smaller particles.

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Quantitative filter forensics with residential HVAC filters to assess indoor concentrations

Cited by 20 publications

References 69 publications

Building upon current knowledge and techniques of indoor microbiology to construct the next era of theory into microorganisms, health, and the built environment

Building upon current knowledge and techniques of indoor microbiology to construct the next era of theory into microorganisms, health, and the built environment

Distribution of SARS-CoV-2 RNA Signal in a Home with COVID-19 Positive Occupants

Extraction of dust collected in HVAC filters for quantitative filter forensics

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