Electric cookers can be used to sanitise N95 masks: Study3 min read . Updated: 09 Aug 2020, 02:03 PM ISTANI
The researchers hypothesized that dry heat might be a method to meet all three criteria - decontamination, filtration, and fit
The researchers see the potential for the electric-cooker method to be useful for health care workers and first responders
ILLINOIS : An add on to its many other benefits, electric multicookers can also be used to sanitize N95 respirator masks, according to a recent study.
The University of Illinois, Urbana-Champaign study found that 50 minutes of dry heat in an electric cooker, such as a rice cooker or Instant Pot, decontaminated N95 respirators inside and out while maintaining their filtration and fit. This could enable wearers to safely reuse limited supplies of the respirators, originally intended to be one-time-use items.
Led by civil and environmental engineering professors Thanh Helen Nguyen and Vishal Verma, the researchers published their findings in the journal Environmental Science and Technology Letters.N95 respirator masks are the gold standard of personal protective equipment that protects the wearer against airborne droplets and particles, such as the coronavirus that causes COVID-19.
"A cloth mask or surgical mask protects others from droplets the wearer might expel, but a respirator mask protects the wearer by filtering out smaller particles that might carry the virus," Nguyen said.High demand during the COVID-19 pandemic has created severe shortages for health care providers and other essential workers, prompting a search for creative approaches to sanitization.
"There are many different ways to sterilize something, but most of them will destroy the filtration or the fit of an N95 respirator," Verma said.
"Any sanitation method would need to decontaminate all surfaces of the respirator, but equally important is maintaining the filtration efficacy and the fit of the respirator to the face of the wearer. Otherwise, it will not offer the right protection," the researcher added.
The researchers hypothesized that dry heat might be a method to meet all three criteria - decontamination, filtration, and fit - without requiring special preparation or leaving any chemical residue. They also wanted to find a method that would be widely accessible to people at home. They decided to test an electric cooker, a type of device many people have in their pantries.
They verified that one cooking cycle, which maintains the contents of the cooker at around 100 degrees Celsius or 212 Fahrenheit for 50 minutes, decontaminated the masks, inside and out, from four different classes of the virus, including a coronavirus - and did so more effectively than ultraviolet light. Then, they tested the filtration and fit.
"We built a chamber in my aerosol-testing lab specifically to look at the filtration of the N95 respirators, and measured particles going through it. The respirators maintained their filtration capacity of more than 95% and kept their fit, still properly seated on the wearer's face, even after 20 cycles of decontamination in the electric cooker," Verma said.
The researchers created a video demonstrating the method. They note that the heat must be dry heat - no water added to the cooker, the temperature should be maintained at 100 degrees Celsius for 50 minutes and a small towel should cover the bottom of the cooker to keep any part of the respirator from coming into direct contact with the heating element. However, multiple masks can be stacked to fit inside the cooker at the same time, Nguyen said.
The researchers see the potential for the electric-cooker method to be useful for health care workers and first responders, especially those in smaller clinics or hospitals that do not have access to large-scale heat sanitization equipment. In addition, it may be useful for others who may have an N95 respirator at home - for example, from a pre-pandemic home-improvement project - and wish to reuse it, Nguyen said.
Electric cooker an easy, efficient way to sanitize N95 masks, study finds
by Liz Ahlberg Touchstone, University of Illinois at Urbana-Champaign
One 50-minute, 212 F cooking cycle in a dry electric multicooker decontaminates an N95 respirator without chemicals and without compromising the filtration or fit. Credit: Chamteut Oh
Owners of electric multicookers may be able to add another use to its list of functions, a new study suggests: sanitization of N95 respirator masks.
The University of Illinois, Urbana-Champaign study found that 50 minutes of dry heat in an electric cooker, such as a rice cooker or Instant Pot, decontaminated N95 respirators inside and out while maintaining their filtration and fit. This could enable wearers to safely reuse limited supplies of the respirators, originally intended to be one-time-use items.
Led by civil and environmental engineering professors Thanh "Helen" Nguyen and Vishal Verma, the researchers published their findings in the journal Environmental Science and Technology Letters.
N95 respirator masks are the gold standard of personal protective equipment that protect the wearer against airborne droplets and particles, such as the coronavirus that causes COVID-19.
"A cloth mask or surgical mask protects others from droplets the wearer might expel, but a respirator mask protects the wearer by filtering out smaller particles that might carry the virus," Nguyen said.
High demand during the COVID-19 pandemic has created severe shortages for health care providers and other essential workers, prompting a search for creative approaches to sanitization.
Owners of electric multicookers may be able to add another use to its list of functions, a new study suggests: sanitization of N95 respirator masks.
The University of Illinois, Urbana-Champaign study found that 50 minutes of dry heat in an electric cooker, such as a rice cooker or Instant Pot, decontaminated N95 respirators inside and out while maintaining their filtration and fit. This could enable wearers to safely reuse limited supplies of the respirators, originally intended to be one-time-use items.
Led by civil and environmental engineering professors Thanh "Helen" Nguyen and Vishal Verma, the researchers published their findings in the journal Environmental Science and Technology Letters.
N95 respirator masks are the gold standard of personal protective equipment that protect the wearer against airborne droplets and particles, such as the coronavirus that causes COVID-19.
"A cloth mask or surgical mask protects others from droplets the wearer might expel, but a respirator mask protects the wearer by filtering out smaller particles that might carry the virus," Nguyen said.
High demand during the COVID-19 pandemic has created severe shortages for health care providers and other essential workers, prompting a search for creative approaches to sanitization.
A towel keeps the respirator from touching the heating element on the bottom of the cooker. Credit: Chamteut Oh
"There are many different ways to sterilize something, but most of them will destroy the filtration or the fit of an N95 respirator," Verma said. "Any sanitation method would need to decontaminate all surfaces of the respirator, but equally important is maintaining the filtration efficacy and the fit of the respirator to the face of the wearer. Otherwise, it will not offer the right protection."
The researchers hypothesized that dry heat might be a method to meet all three criteria—decontamination, filtration and fit—without requiring special preparation or leaving any chemical residue. They also wanted to find a method that would be widely accessible for people at home. They decided to test an electric cooker, a type of device many people have in their pantries.
They verified that one cooking cycle, which maintains the contents of the cooker at around 100 degrees Celsius or 212 Fahrenheit for 50 minutes, decontaminated the masks, inside and out, from four different classes of virus, including a coronavirus—and did so more effectively than ultraviolet light. Then, they tested the filtration and fit.
"We built a chamber in my aerosol-testing lab specifically to look at the filtration of the N95 respirators, and measured particles going through it," Verma said. "The respirators maintained their filtration capacity of more than 95% and kept their fit, still properly seated on the wearer's face, even after 20 cycles of decontamination in the electric cooker."
The researchers created a video demonstrating the method. They note that the heat must be dry heat—no water added to the cooker, the temperature should be maintained at 100 degrees Celsius for 50 minutes and a small towel should cover the bottom of the cooker to keep any part of the respirator from coming into direct contact with the heating element. However, multiple masks can be stacked to fit inside the cooker at the same time, Nguyen said.
The researchers see potential for the electric-cooker method to be useful for health care workers and first responders, especially those in smaller clinics or hospitals that do not have access to large-scale heat sanitization equipment. In addition, it may be useful for others who may have an N95 respirator at home—for example, from a pre-pandemic home-improvement project—and wish to reuse it, Nguyen said.
Explore further
Journal information: Environmental Science & Technology Letters
Provided by University of Illinois at Urbana-Champaign
"There are many different ways to sterilize something, but most of them will destroy the filtration or the fit of an N95 respirator," Verma said. "Any sanitation method would need to decontaminate all surfaces of the respirator, but equally important is maintaining the filtration efficacy and the fit of the respirator to the face of the wearer. Otherwise, it will not offer the right protection."
The researchers hypothesized that dry heat might be a method to meet all three criteria—decontamination, filtration and fit—without requiring special preparation or leaving any chemical residue. They also wanted to find a method that would be widely accessible for people at home. They decided to test an electric cooker, a type of device many people have in their pantries.
They verified that one cooking cycle, which maintains the contents of the cooker at around 100 degrees Celsius or 212 Fahrenheit for 50 minutes, decontaminated the masks, inside and out, from four different classes of virus, including a coronavirus—and did so more effectively than ultraviolet light. Then, they tested the filtration and fit.
"We built a chamber in my aerosol-testing lab specifically to look at the filtration of the N95 respirators, and measured particles going through it," Verma said. "The respirators maintained their filtration capacity of more than 95% and kept their fit, still properly seated on the wearer's face, even after 20 cycles of decontamination in the electric cooker."
The researchers created a video demonstrating the method. They note that the heat must be dry heat—no water added to the cooker, the temperature should be maintained at 100 degrees Celsius for 50 minutes and a small towel should cover the bottom of the cooker to keep any part of the respirator from coming into direct contact with the heating element. However, multiple masks can be stacked to fit inside the cooker at the same time, Nguyen said.
The researchers see potential for the electric-cooker method to be useful for health care workers and first responders, especially those in smaller clinics or hospitals that do not have access to large-scale heat sanitization equipment. In addition, it may be useful for others who may have an N95 respirator at home—for example, from a pre-pandemic home-improvement project—and wish to reuse it, Nguyen said.
Explore further
Researchers says autoclaving, alcohol not the best options for disinfecting, reusing face masks
More information: Chamteut Oh et al, Dry Heat as a Decontamination Method for N95 Respirator Reuse, Environmental Science & Technology Letters (2020).
More information: Chamteut Oh et al, Dry Heat as a Decontamination Method for N95 Respirator Reuse, Environmental Science & Technology Letters (2020).
Journal information: Environmental Science & Technology Letters
Provided by University of Illinois at Urbana-Champaign
No comments:
Post a Comment