Seshadri Ramkumar

Porous cotton substrates shown to better destabilize SARS-CoV-2

Posted October 14, 2020


By Seshadri Ramkumar


LUBBOCK, Texas – Porous cotton substrates are better in destabilizing the SARS-CoV-2 virus, a study has shown.


With global COVID-19 cases over 37 million and deaths crossing 1 million, medical and nonmedical countermeasures such as masks are critically needed.


A recent study by Australian scientists show that material characteristics and temperature play important roles in the survival of the coronavirus. The work focused on the survival rate of SARS-CoV-2 virus on surfaces like paper notes, stainless steel, glass, vinyl material and cotton cloth. The viral studies were performed in high containment (Biosafety Level 4) at the Australian Center for Disease Preparedness.


At 20 deg. C, for nonporous materials such as stainless steel, glass, the virus persisted beyond 28 days post infection. In the case of cotton, the virus was not recovered past 14 days after inoculation. As the temperature was raised, recovery of the virus was reduced. At 40 deg. C, SARS-CoV-2 was not recoverable after 24 hours for cotton, while the virus was not recovered beyond 48 hours for nonporous surfaces studied. In addition, humidity also influences the survival rate of the virus.


“It has been known for some time that the infectious virus could survive on inanimate objects for some time, depending on its structure and characteristics,” said Dr. Manickavasagam Sundaram, Lakeridge Health, Oshawa, Canada.


As a practicing physician, Dr. Sundaram emphasized the importance of face coverings, social distancing, hand hygiene and the disinfecting of frequently used surfaces.


The latest study supports the use of face coverings made using cotton. Also, it indicates the influence of structural characteristics such as porosity. Nonwoven fabrics have a higher surface area, which may be helpful in developing face coverings with filters. I have advocated the use of filter enhanced cotton face coverings, “FISORS,” which may be an efficient viral barrier.


Results of the Australian study have appeared recently in the Virology Journal.


Dr. Seshadri Ramkumar, Ph.D., CText., FTI (U.K.), FTA (honorary), is a professor at the Nonwovens & Advanced Materials Laboratory at Texas Tech.

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