Characterization of a commercially-available, low-pressure UV lamp as a disinfection system for decontamination of common nosocomial pathogens on N95 filtering facepiece respirator (FFR) material

Ontiveros C. Carolina; Sweeney Crystal L.; Smith Chris; MacIsaac Sean; Munoz Sebastian; Davidson Ross; McCormick Craig; Thomas Nikhil; Davis Ian; Stoddart Amina K.; Gagnon Graham A.

首页> 外文期刊>Environmental Science: Water Research & Technology >Characterization of a commercially-available, low-pressure UV lamp as a disinfection system for decontamination of common nosocomial pathogens on N95 filtering facepiece respirator (FFR) material

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Characterization of a commercially-available, low-pressure UV lamp as a disinfection system for decontamination of common nosocomial pathogens on N95 filtering facepiece respirator (FFR) material

机译：以商业化的低压UV灯表征为用于净化N95过滤面部呼吸器（FFR）材料上常见神经病原体的消毒系统

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A commercially-available UV surface disinfection system used for hospital room disinfection was characterized for use as a UV-inactivation system for N95 filtering facepiece respirator (FFR) respirators. The output of light was initially characterized and assessed for its ability to penetrate through the individual N95 respirator layers. Following characterization, disinfection performance was tested using a range of model pathogens. In a series of experiments, coupons of respirator material were inoculated withEscherichia coli,Staphylococcus aureus,Geobacillus stearothermophilusspores,Bacillus cereus,Pseudomonas aeruginosa, and influenza A virus. Inoculated coupons were then treated with UV light from a low-pressure UV disinfection system during specific treatment times. Microbial enumeration was performed pre- and post-UV treatment. It was found that respirator coupons inoculated withE. coli, influenza A,P. aeruginosa,B. cereusandG. stearothermophilusresulted in below detection counts when exposed to UV fluences between 410 to 2700 mJ cm(-2). In addition, UV light was unable to sufficiently penetrate all layers of respirator material, highlighting the importance of flipping respirators when exposing them to UV light. This work suggests that with further validation, UV light will be a promising touchless treatment option for frontline professionals who need to repurpose N95 respirators for subsequent use.

机译：用于医院空间消毒的市售UV表面消毒系统的特征在于用作N95过滤面板呼吸器（FFR）呼吸器的UV失活体系。最初表征光的输出并评估其穿透各个N95呼吸器层的能力。在表征之后，使用一系列模型病原体测试消毒性能。在一系列实验中，呼吸器材料的优惠券被接种用ColiIs Coli，葡萄球菌，Geobacillus Stearothermophilusspores，芽孢杆菌，假单胞菌铜绿假单胞菌和流感病毒。然后在特定治疗时间内用来自低压UV消毒系统的UV光处理接种试样。进行微生物枚举预先和后紫外线处理。有发现呼吸器优惠券接种着。大肠杆菌，流感A，p。铜绿假单胞菌，湾Cereusandg。当暴露于410至2700 MJ厘米（-2）之间的UV流量时，在低于检测计数的鼠标疗法。此外，UV光不能充分渗透所有呼吸器材料层，突出了翻转呼吸器在将它们暴露于UV光线时的重要性。这项工作表明，通过进一步验证，紫外线将为需要能够为后续使用提供N95呼吸器的前线专业人士提供有前途的无触觉处理选择。

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《Environmental Science: Water Research & Technology》 |2020年第8期|2089-2102|共14页
作者
Ontiveros C. Carolina; Sweeney Crystal L.; Smith Chris; MacIsaac Sean; Munoz Sebastian; Davidson Ross; McCormick Craig; Thomas Nikhil; Davis Ian; Stoddart Amina K.; Gagnon Graham A.;
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Dalhousie Univ Dept Civil & Resource Engn Ctr Water Resources & Studies 1360 Barrington St Halifax NS B3H 4R2 Canada;

Dalhousie Univ Dept Civil & Resource Engn Ctr Water Resources & Studies 1360 Barrington St Halifax NS B3H 4R2 Canada;

Nova Scotia Hlth Author Halifax NS Canada;

Dalhousie Univ Dept Civil & Resource Engn Ctr Water Resources & Studies 1360 Barrington St Halifax NS B3H 4R2 Canada;

Dalhousie Univ Dept Civil & Resource Engn Ctr Water Resources & Studies 1360 Barrington St Halifax NS B3H 4R2 Canada;

Dalhousie Univ Nova Scotia Hlth Author Div Microbiol Halifax NS Canada|Dalhousie Univ Dept Pathol & Lab Med Halifax NS Canada|Dalhousie Univ Dept Microbiol & Immunol Halifax NS Canada|Dalhousie Univ Dept Med Halifax NS Canada;

Dalhousie Univ Dept Microbiol & Immunol Halifax NS Canada;

Dalhousie Univ Dept Microbiol & Immunol Halifax NS Canada|Dalhousie Univ Dept Med Dept Pathol Div Infect Dis Halifax NS Canada;

Nova Scotia Hlth Author Halifax NS Canada|Dalhousie Univ Nova Scotia Hlth Author Div Microbiol Halifax NS Canada|Dalhousie Univ Dept Pathol & Lab Med Halifax NS Canada|Dalhousie Univ Dept Microbiol & Immunol Halifax NS Canada|Dalhousie Univ Dept Med Halifax NS Canada|Dalhousie Univ Dept Med Dept Pathol Div Infect Dis Halifax NS Canada;

Dalhousie Univ Dept Civil & Resource Engn Ctr Water Resources & Studies 1360 Barrington St Halifax NS B3H 4R2 Canada;

Dalhousie Univ Dept Civil & Resource Engn Ctr Water Resources & Studies 1360 Barrington St Halifax NS B3H 4R2 Canada;

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2. Multicycle Autoclave Decontamination of N95 Filtering Facepiece Respirators [J] . Nathen E. Bopp, Donald H. Bouyer, Christopher M. Gibbs, Applied biosafety: Journal of the American Biological Safety Association. . 2020,第3期

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3. Development of a rapid plasma decontamination system for decontamination and reuse of filtering facepiece respirators [J] . Minkwan Kim, John Lawson, Rodolphe Hervé, AIP Advances . 2021,第10期

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4. CONTACT PRESSURE SENSITIVITY ANALYSIS IN N95 FILTERING FACEPIECE RESPIRATOR WITH STRAP LOCATION, FRICTION, AND HEADFORM MATERIAL PROPERTY [C] . Ming Xu, James Yang Computers and information in engineering conference;ASME international design engineering technical conferences and computers and information in engineering conference . 2016

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Characterization of a commercially-available, low-pressure UV lamp as a disinfection system for decontamination of common nosocomial pathogens on N95 filtering facepiece respirator (FFR) material

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