Effectiveness of dry hydrogen peroxide in reducing air and surface bioburden in a multicenter clinical setting
To determine the effectiveness of dry hydrogen peroxide (DHP) in reducing environmental bioburden in occupied areas. Prospective environmental cohort study. The study was conducted in 2 tertiary-care hospitals and 1 free-standing emergency department. Environmental air and surface sites were culture...
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| Published in: | Infection control and hospital epidemiology Vol. 45; no. 4; pp. 501 - 508 |
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| Main Authors: | , , , , |
| Format: | Journal Article |
| Language: | English |
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New York, USA
Cambridge University Press
01-04-2024
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| Abstract | To determine the effectiveness of dry hydrogen peroxide (DHP) in reducing environmental bioburden in occupied areas.
Prospective environmental cohort study.
The study was conducted in 2 tertiary-care hospitals and 1 free-standing emergency department.
Environmental air and surface sites were cultured before and after continuous deployment of DHP systems in targeted hospital areas.
In total, 1,554 surface and 1,036 air samples were collected from 74 patient areas among the 3 facilities on 3 consecutive days before DHP deployment and on days 14, 30, 60, and 90 after deployment. At each sampling time, 2 air samples were collected at each facility from 1 room without DHP, along with 2 outdoor samples from each facility. The impact of negative-pressure usage on the efficacy of DHP was also evaluated, with 1 hospital continuously using negative pressure, another utilizing it only in patient isolation scenarios, and another without negative pressure.
In the 2 facilities without continuous negative pressure, exposure to DHP was associated with a significant reduction in surface bioburden, characterized as total colony-forming units (
= .019;
= .002). Significant associations between DHP exposure and reductions in airborne bacterial load at the 2 hospitals were observed (
.001;
= .041), and the free-standing emergency department experienced a reduction that did not achieve statistical significance (
= .073).
Our findings confirm that DHP has the potential to reduce microbial air and surface bioburden in occupied patient rooms with standard ventilation parameters. |
|---|---|
| AbstractList | To determine the effectiveness of dry hydrogen peroxide (DHP) in reducing environmental bioburden in occupied areas.
Prospective environmental cohort study.
The study was conducted in 2 tertiary-care hospitals and 1 free-standing emergency department.
Environmental air and surface sites were cultured before and after continuous deployment of DHP systems in targeted hospital areas.
In total, 1,554 surface and 1,036 air samples were collected from 74 patient areas among the 3 facilities on 3 consecutive days before DHP deployment and on days 14, 30, 60, and 90 after deployment. At each sampling time, 2 air samples were collected at each facility from 1 room without DHP, along with 2 outdoor samples from each facility. The impact of negative-pressure usage on the efficacy of DHP was also evaluated, with 1 hospital continuously using negative pressure, another utilizing it only in patient isolation scenarios, and another without negative pressure.
In the 2 facilities without continuous negative pressure, exposure to DHP was associated with a significant reduction in surface bioburden, characterized as total colony-forming units (
= .019;
= .002). Significant associations between DHP exposure and reductions in airborne bacterial load at the 2 hospitals were observed (
.001;
= .041), and the free-standing emergency department experienced a reduction that did not achieve statistical significance (
= .073).
Our findings confirm that DHP has the potential to reduce microbial air and surface bioburden in occupied patient rooms with standard ventilation parameters. Abstract Objective: To determine the effectiveness of dry hydrogen peroxide (DHP) in reducing environmental bioburden in occupied areas. Design: Prospective environmental cohort study. Setting: The study was conducted in 2 tertiary-care hospitals and 1 free-standing emergency department. Intervention: Environmental air and surface sites were cultured before and after continuous deployment of DHP systems in targeted hospital areas. Methods: In total, 1,554 surface and 1,036 air samples were collected from 74 patient areas among the 3 facilities on 3 consecutive days before DHP deployment and on days 14, 30, 60, and 90 after deployment. At each sampling time, 2 air samples were collected at each facility from 1 room without DHP, along with 2 outdoor samples from each facility. The impact of negative-pressure usage on the efficacy of DHP was also evaluated, with 1 hospital continuously using negative pressure, another utilizing it only in patient isolation scenarios, and another without negative pressure. Results: In the 2 facilities without continuous negative pressure, exposure to DHP was associated with a significant reduction in surface bioburden, characterized as total colony-forming units ( P = .019; P = .002). Significant associations between DHP exposure and reductions in airborne bacterial load at the 2 hospitals were observed ( P ≤ .001; P = .041), and the free-standing emergency department experienced a reduction that did not achieve statistical significance ( P = .073). Conclusions: Our findings confirm that DHP has the potential to reduce microbial air and surface bioburden in occupied patient rooms with standard ventilation parameters. OBJECTIVETo determine the effectiveness of dry hydrogen peroxide (DHP) in reducing environmental bioburden in occupied areas.DESIGNProspective environmental cohort study.SETTINGThe study was conducted in 2 tertiary-care hospitals and 1 free-standing emergency department.INTERVENTIONEnvironmental air and surface sites were cultured before and after continuous deployment of DHP systems in targeted hospital areas.METHODSIn total, 1,554 surface and 1,036 air samples were collected from 74 patient areas among the 3 facilities on 3 consecutive days before DHP deployment and on days 14, 30, 60, and 90 after deployment. At each sampling time, 2 air samples were collected at each facility from 1 room without DHP, along with 2 outdoor samples from each facility. The impact of negative-pressure usage on the efficacy of DHP was also evaluated, with 1 hospital continuously using negative pressure, another utilizing it only in patient isolation scenarios, and another without negative pressure.RESULTSIn the 2 facilities without continuous negative pressure, exposure to DHP was associated with a significant reduction in surface bioburden, characterized as total colony-forming units (P = .019; P = .002). Significant associations between DHP exposure and reductions in airborne bacterial load at the 2 hospitals were observed (P ≤ .001; P = .041), and the free-standing emergency department experienced a reduction that did not achieve statistical significance (P = .073).CONCLUSIONSOur findings confirm that DHP has the potential to reduce microbial air and surface bioburden in occupied patient rooms with standard ventilation parameters. Objective:To determine the effectiveness of dry hydrogen peroxide (DHP) in reducing environmental bioburden in occupied areas.Design:Prospective environmental cohort study.Setting:The study was conducted in 2 tertiary-care hospitals and 1 free-standing emergency department.Intervention:Environmental air and surface sites were cultured before and after continuous deployment of DHP systems in targeted hospital areas.Methods:In total, 1,554 surface and 1,036 air samples were collected from 74 patient areas among the 3 facilities on 3 consecutive days before DHP deployment and on days 14, 30, 60, and 90 after deployment. At each sampling time, 2 air samples were collected at each facility from 1 room without DHP, along with 2 outdoor samples from each facility. The impact of negative-pressure usage on the efficacy of DHP was also evaluated, with 1 hospital continuously using negative pressure, another utilizing it only in patient isolation scenarios, and another without negative pressure.Results:In the 2 facilities without continuous negative pressure, exposure to DHP was associated with a significant reduction in surface bioburden, characterized as total colony-forming units (P = .019; P = .002). Significant associations between DHP exposure and reductions in airborne bacterial load at the 2 hospitals were observed (P ≤ .001; P = .041), and the free-standing emergency department experienced a reduction that did not achieve statistical significance (P = .073).Conclusions:Our findings confirm that DHP has the potential to reduce microbial air and surface bioburden in occupied patient rooms with standard ventilation parameters. |
| Author | Christie, Jacqueline Walsh, Timothy F. Vaughn, Kimberly L. Lawrence, Jordan Wright, Don |
| AuthorAffiliation | 3 Department of Infection Prevention and Control, Aiken Regional Medical Centers , Aiken , South Carolina 4 Department of Infection Prevention and Control, Henderson Hospital , Henderson , Nevada 5 Department of Infection Prevention and Control, Valley Hospital Medical Center , Las Vegas , Nevada 2 Department of Public Health, Royal Caribbean Group Health , Miami , Florida 1 Universal Health Services , King of Prussia , Pennsylvania |
| AuthorAffiliation_xml | – name: 4 Department of Infection Prevention and Control, Henderson Hospital , Henderson , Nevada – name: 2 Department of Public Health, Royal Caribbean Group Health , Miami , Florida – name: 3 Department of Infection Prevention and Control, Aiken Regional Medical Centers , Aiken , South Carolina – name: 5 Department of Infection Prevention and Control, Valley Hospital Medical Center , Las Vegas , Nevada – name: 1 Universal Health Services , King of Prussia , Pennsylvania |
| Author_xml | – sequence: 1 givenname: Don surname: Wright fullname: Wright, Don email: Don.Wright@uhsinc.com organization: Universal Health Services, King of Prussia, Pennsylvania – sequence: 2 givenname: Jacqueline orcidid: 0000-0001-9511-3582 surname: Christie fullname: Christie, Jacqueline organization: Department of Public Health, Royal Caribbean Group Health, Miami, Florida – sequence: 3 givenname: Jordan surname: Lawrence fullname: Lawrence, Jordan organization: Department of Infection Prevention and Control, Aiken Regional Medical Centers, Aiken, South Carolina – sequence: 4 givenname: Kimberly L. surname: Vaughn fullname: Vaughn, Kimberly L. organization: Department of Infection Prevention and Control, Henderson Hospital, Henderson, Nevada – sequence: 5 givenname: Timothy F. surname: Walsh fullname: Walsh, Timothy F. organization: Department of Infection Prevention and Control, Valley Hospital Medical Center, Las Vegas, Nevada |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/38017626$$D View this record in MEDLINE/PubMed |
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| Copyright | The Author(s), 2023. Published by Cambridge University Press on behalf of The Society for Healthcare Epidemiology of America The Author(s), 2023. Published by Cambridge University Press on behalf of The Society for Healthcare Epidemiology of America. This work is licensed under the Creative Commons Attribution License This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited. (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. The Author(s) 2023 2023 The Author(s) |
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| Snippet | To determine the effectiveness of dry hydrogen peroxide (DHP) in reducing environmental bioburden in occupied areas.
Prospective environmental cohort study.... Abstract Objective: To determine the effectiveness of dry hydrogen peroxide (DHP) in reducing environmental bioburden in occupied areas. Design: Prospective... Objective:To determine the effectiveness of dry hydrogen peroxide (DHP) in reducing environmental bioburden in occupied areas.Design:Prospective environmental... OBJECTIVETo determine the effectiveness of dry hydrogen peroxide (DHP) in reducing environmental bioburden in occupied areas.DESIGNProspective environmental... |
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| SubjectTerms | Air sampling Cohort Studies Disinfection & disinfectants Emergency medical care Hospitals Humans Humidity Hydrogen Peroxide Intensive care Mental health Original Original Article Pandemics Patient Isolation Prospective Studies |
| Title | Effectiveness of dry hydrogen peroxide in reducing air and surface bioburden in a multicenter clinical setting |
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