7 results on '"Horve, Patrick"'
Search Results
2. Evaluating fomite risk of brown paper bags storing personal protective equipment exposed to SARS-CoV-2: A quasi-experimental study.
- Author
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Unger, Kyirsty, Dietz, Leslie, Horve, Patrick, Van Den Wymelenberg, Kevin, Lin, Amber, Kinney, Erin, and Kea, Bory
- Subjects
PAPER bags ,SARS-CoV-2 ,PERSONAL protective equipment ,MEDICAL masks ,URBAN hospitals ,COUGH ,MEDICAL personnel - Abstract
Introduction: Literature is lacking on the safety of storing contaminated PPE in paper bags for reuse, potentially increasing exposure to frontline healthcare workers (HCW) and patients. The aim of this study is to evaluate the effectiveness of paper bags as a barrier for fomite transmission of SARS-CoV-2 by storing face masks, respirators, and face shields. Methods: This quasi-experimental study evaluated the presence of SARS-CoV-2 on the interior and exterior surfaces of paper bags containing PPE that had aerosolized exposures in clinical and simulated settings. Between May and October 2020, 30 unique PPE items were collected from COVID-19 units at two urban hospitals. Exposed PPE, worn by either an infected patient or HCW during a SARS-CoV-2 aerosolizing event, were placed into an unused paper bag. Samples were tested at 30-minute and 12-hour intervals. Results: A total of 177 swabs were processed from 30 PPE samples. We found a 6.8% positivity rate among all samples across both collection sites. Highest positivity rates were associated with ventilator disconnection and exposure to respiratory droplets from coughing. Positivity rates differed between hospital units. Total positivity rates were similar between 30-minute (6.7%) and 12-hour (6.9%) sample testing time intervals. Control samples exposed to inactivated SARS-CoV-2 droplets had higher total viral counts than samples exposed to nebulized aerosols. Conclusions: Data suggests paper bags are not a significant fomite risk for SARS-CoV-2 transmission. However, controls demonstrated a risk with droplet exposure. Data can inform guidelines for storing and re-using PPE in situations of limited supplies during future pandemics. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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3. Quantifying Environmental Mitigation of Aerosol Viral Load in a Controlled Chamber With Participants Diagnosed With Coronavirus Disease 2019.
- Author
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Parhizkar, Hooman, Dietz, Leslie, Olsen-Martinez, Andreas, Horve, Patrick F, Barnatan, Liliana, Northcutt, Dale, and Wymelenberg, Kevin G Van Den
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AEROSOLS ,COVID-19 ,COMMUNICABLE diseases ,VIRAL load ,RNA ,ENVIRONMENTAL health ,FILTERS & filtration ,HEALTH ,INFECTIOUS disease transmission ,VENTILATION ,PATIENT safety - Abstract
Background Several studies indicate that coronavirus disease 2019 (COVID-19) is primarily transmitted within indoor spaces. Therefore, environmental characterization of severe acute respiratory syndrome coronavirus 2 viral load with respect to human activity, building parameters, and environmental mitigation strategies is critical to combat disease transmission. Methods We recruited 11 participants diagnosed with COVID-19 to individually occupy a controlled chamber and conduct specified physical activities under a range of environmental conditions; we collected human and environmental samples over a period of 3 days for each participant. Results Here we show that increased viral load, measured by lower RNA cycle threshold (C
T ) values, in nasal samples is associated with higher viral loads in environmental aerosols and on surfaces captured in both the near field (1.2 m) and far field (3.5 m). We also found that aerosol viral load in far field is correlated with the number of particles within the range of 1–2.5 µm. Furthermore, we found that increased ventilation and filtration significantly reduced aerosol and surface viral loads, while higher relative humidity resulted in lower aerosol and higher surface viral load, consistent with an increased rate of particle deposition at higher relative humidity. Data from near field aerosol trials with high expiratory activities suggest that respiratory particles of smaller sizes (0.3–1 µm) best characterize the variance of near field aerosol viral load. Conclusions Our findings indicate that building operation practices such as ventilation, filtration, and humidification substantially reduce the environmental aerosol viral load and therefore inhalation dose, and should be prioritized to improve building health and safety. [ABSTRACT FROM AUTHOR]- Published
- 2022
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4. Twenty Important Research Questions in Microbial Exposure and Social Equity.
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Robinson, Jake M., Redvers, Nicole, Camargo, Araceli, Bosch, Christina A., Breed, Martin F., Brenner, Lisa A., Carney, Megan A., Chauhan, Ashvini, Dasari, Mauna, Dietz, Leslie G., Friedman, Michael, Grieneisen, Laura, Hoisington, Andrew J., Horve, Patrick F., Hunter, Ally, Jech, Sierra, Jorgensen, Anna, Lowry, Christopher A., Man, Ioana, and Mhuireach, Gwynne
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- 2022
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5. Evaluation of a bioaerosol sampler for indoor environmental surveillance of Severe Acute Respiratory Syndrome Coronavirus 2.
- Author
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Horve, Patrick Finn, Dietz, Leslie, Northcutt, Dale, Stenson, Jason, and Van Den Wymelenberg, Kevin
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MICROBIOLOGICAL aerosols , *COVID-19 , *SARS-CoV-2 - Abstract
The worldwide spread of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) has ubiquitously impacted many aspects of life. As vaccines continue to be manufactured and administered, limiting the spread of SARS-CoV-2 will rely more heavily on the early identification of contagious individuals occupying reopened and increasingly populated indoor environments. In this study, we investigated the utility of an impaction-based bioaerosol sampling system with multiple nucleic acid collection media. Heat-inactivated SARS-CoV-2 was utilized to perform bench-scale, short-range aerosol, and room-scale aerosol experiments. Through bench-scale experiments, AerosolSense Capture Media (ACM) and nylon flocked swabs were identified as the highest utility media. In room-scale aerosol experiments, consistent detection of aerosol SARS-CoV-2 was achieved at an estimated aerosol concentration equal to or greater than 0.089 genome copies per liter of room air (gc/L) when air was sampled for eight hours or more at less than one air change per hour (ACH). Shorter sampling periods (75 minutes) yielded consistent detection at ~31.8 gc/L of room air and intermittent detection down to ~0.318 gc/L at (at both 1 and 6 ACH). These results support further exploration in real-world testing scenarios and suggest the utility of indoor aerosol surveillance as an effective risk mitigation strategy in occupied buildings. [ABSTRACT FROM AUTHOR]
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- 2021
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6. Identification of SARS‐CoV‐2 RNA in healthcare heating, ventilation, and air conditioning units.
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Horve, Patrick F., Dietz, Leslie G., Fretz, Mark, Constant, David A., Wilkes, Andrew, Townes, John M., Martindale, Robert G., Messer, William B., and Van Den Wymelenberg, Kevin G.
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COVID-19 , *SARS-CoV-2 , *AIR conditioning , *AIRBORNE infection , *VIRAL transmission - Abstract
Evidence continues to grow supporting the aerosol transmission of severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2). To assess the potential role of heating, ventilation, and air conditioning (HVAC) systems in airborne viral transmission, this study sought to determine the viral presence, if any, on air handling units in a healthcare setting where coronavirus disease 2019 (COVID‐19) patients were being treated. The presence of SARS‐CoV‐2 RNA was detected in approximately 25% of samples taken from ten different locations in multiple air handlers. While samples were not evaluated for viral infectivity, the presence of viral RNA in air handlers raises the possibility that viral particles can enter and travel within the air handling system of a hospital, from room return air through high‐efficiency MERV‐15 filters and into supply air ducts. Although no known transmission events were determined to be associated with these specimens, the findings suggest the potential for HVAC systems to facilitate transfer of virions to locations remote from areas where infected persons reside. These results are important within and outside of healthcare settings and may present necessary guidance for building operators of facilities that are not equipped with high‐efficiency filtration. Furthermore, the identification of SARS‐CoV‐2 in HVAC components indicates the potential utility as an indoor environmental surveillance location. [ABSTRACT FROM AUTHOR]
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- 2021
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7. Cell-type-specific responses to the microbiota across all tissues of the larval zebrafish.
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Massaquoi, Michelle S., Kong, Garth L., Chilin-Fuentes, Daisy, Ngo, Julia S., Horve, Patrick F., Melancon, Ellie, Hamilton, M. Kristina, Eisen, Judith S., and Guillemin, Karen
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Animal development proceeds in the presence of intimate microbial associations, but the extent to which different host cells across the body respond to resident microbes remains to be fully explored. Using the vertebrate model organism, the larval zebrafish, we assessed transcriptional responses to the microbiota across the entire body at single-cell resolution. We find that cell types across the body, not limited to tissues at host-microbe interfaces, respond to the microbiota. Responses are cell-type-specific, but across many tissues the microbiota enhances cell proliferation, increases metabolism, and stimulates a diversity of cellular activities, revealing roles for the microbiota in promoting developmental plasticity. This work provides a resource for exploring transcriptional responses to the microbiota across all cell types of the vertebrate body and generating new hypotheses about the interactions between vertebrate hosts and their microbiota. [Display omitted] • The Larval Zebrafish Gnotobiotic Atlas: a resource of microbiota-responsive genes • The microbiota induces transcriptional responses across all tissues of the body • The microbiota stimulates widespread transcriptional signatures of ATP production • The microbiota promotes exocrine pancreas growth and functional plasticity The Larval Zebrafish Gnotobiotic Atlas provides a comprehensive resource of microbiota-dependent transcriptomes across the entire body at single-cell resolution. Massaquoi et al. show gene expression changes between conventionalized and germ-free cell types to the microbiota, not limited to tissues in direct contact with resident microbes. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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