Saturday, January 28, 2023
News on Pathogens and Preparedness
Global Biodefense
  • Featured
  • COVID-19
  • Funding
  • Directory
  • Jobs
  • Events
  • Subscribe
No Result
View All Result
  • Featured
  • COVID-19
  • Funding
  • Directory
  • Jobs
  • Events
  • Subscribe
No Result
View All Result
Global Biodefense
No Result
View All Result
Home Decontamination

NIST Tool Could Help Hospitals Repurpose Rooms for Disinfecting N95 Masks

by Global Biodefense Staff
April 19, 2020
NIST Tool Could Help Hospitals Repurpose Rooms for Disinfecting N95 Masks

N95 masks are gathered in a compartment for VHP decontamination. Image courtesy of Battelle via NIST

In response to the COVID-19 pandemic, hospitals across the United States are disinfecting N95 masks by placing them in repurposed rooms or shipping containers injected with a disinfectant known as vaporized hydrogen peroxide, or VHP. A new tool from the National Institute of Standards and Technology (NIST) can help hospitals and medical professionals determine which rooms should be used to disinfect N95 masks. The tool estimates the amount of VHP masks would receive and suggests that larger rooms containing fewer objects, with less-reactive surfaces and slower ventilation, maintain VHP concentration the best.

“Hospitals have used VHP systems to disinfect isolation rooms after a highly infectious person has left,” said Andrew Persily, chief of NIST’s Energy and Environment Division. “Now there are efforts underway to do the same to disinfect masks.”

For hospitals, choosing and configuring rooms to house the N95 disinfection processes means accounting for conditions that vary from room to room, such as size, airflow and surface materials. These factors influence VHP concentration and, in certain cases, could prevent masks from receiving effective doses.

“Even if you’re hitting a room with a huge dose of VHP and you’re assuming it’s all going on your masks, a lot of it may be going on your walls or ceiling,” said Dustin Poppendieck, a NIST environmental engineer and the developer of the new tool. “Then you might not be disinfecting as effectively as you think.”

VHP’s interactions with various materials came into focus for Poppendieck in the early 2000s, before he joined NIST, when he studied the chemical’s ability to disinfect post office rooms containing anthrax-causing bacteria.

Those experiments revealed that VHP deposits onto certain surfaces much more readily than others. For example, tile floors consume much less VHP than does carpet, which can reduce the VHP concentration in a room by as much as 10 times.

Now, the data from those experiments has become the foundation of the new NIST tool — packaged into a spreadsheet — that models where VHP settles after being injected into a room.

Sample Screenshot. Credit: NIST

By entering important parameters related to a room’s size, materials and ventilation into the spreadsheet, users get estimates of how much VHP would actually deposit onto the masks versus being lost through leaks or absorbed by surfaces, Poppendieck said.

The tool can help hospitals and other institutions make more informed decisions when choosing and adapting rooms for mask disinfection. However, it is not a one-stop shop, Poppendieck cautioned. Facility management, safety professionals and infection control experts would still need to work together to determine how to apply VHP safely and effectively.

“It should be a unified approach if you’re going to do this, and this tool is just one small piece of the puzzle to figure out how to appropriately disinfect masks using VHP,” Poppendieck said.

The spreadsheet is available for download here.

Tags: COVID-19Editor PickIndividual ProtectionPublic Health EmergencySARS-CoV-2

Related Posts

Killing Anthrax More Quickly with Hot Air Decontamination
CBRNE

Killing Anthrax More Quickly with Hot Air Decontamination

January 4, 2023
Type of UV Light Most Effective at Killing Coronavirus is Also Safest to Use Around People
Decontamination

Type of UV Light Most Effective at Killing Coronavirus is Also Safest to Use Around People

October 26, 2021
Device hovering over a mask
Decontamination

Scientists Show Plasma Technology Can Safely Clean Disposable PPE for Reuse

October 20, 2021
New Disinfectant Can Continuously Kill Viruses on Surfaces for Up to 7 Days
Decontamination

New Disinfectant Can Continuously Kill Viruses on Surfaces for Up to 7 Days

September 16, 2021
Load More

Latest News

Partner Therapeutics’ Novel Approach to Stratify Sepsis Patients Gains Backing From BARDA

Biopreparedness Research Virtual Environment (BRaVE) Initiative Backed by $105M DOE Funding

January 25, 2023
Influenza Proteins Tilt and Wave in ‘Breath-like’ Motions

Influenza Proteins Tilt and Wave in ‘Breath-like’ Motions

January 25, 2023
Biodefense Headlines – 24 January 2023

Biodefense Headlines – 24 January 2023

January 24, 2023
Biodefense Headlines – 17 January 2023

Biodefense Headlines – 17 January 2023

January 17, 2023

Subscribe

  • About
  • Contact
  • Privacy
  • Subscribe

© 2022 Stemar Media Group LLC

No Result
View All Result
  • Featured
  • COVID-19
  • Funding
  • Directory
  • Jobs
  • Events
  • Subscribe

© 2022 Stemar Media Group LLC