The findings showed that on plastic and skin surfaces, Alpha, Beta, Delta, and Omicron variants exhibited more than two-fold longer survival times than those of the Wuhan strain and maintained infectivity for more than 16 hours on the skin surfaces.
Omicron survived 21.1 hours on skin model from cadavers, followed by the Wuhan virus (8.6 hours), the Gamma (11 hours), and Delta (16.8 hours) variant. The survival of Alpha (19.6 hours) and Beta (19.1 hours) was found to be similar.
“The Omicron variant has the highest environmental stability among VOCs,” said researchers from the Kyoto Prefectural University of Medicine in Japan.
“This high stability might also be one of the factors that have allowed the Omicron variant to replace the Delta variant and spread rapidly,” they said.
Further, the team found that Omicron can survive 193.5 hours (about 8 days) on a plastic (polystyrene) surface, plus three times that of the original strain (56 hours) and the Gamma variant (59.3 hours), and significantly more than Delta (114 hours) and Beta (156.6 hours). Only the Alpha variant, with 191.3 hours, showed similar resistance.
The researchers said that the high environmental stability of these VOCs could increase the risk of contact transmission and contribute to the spread of VOCs.
The study also showed that although Alpha, Beta, Delta, and Omicron variants showed a slight increase in ethanol resistance, all VOCs on the skin surface were completely inactivated in 15 seconds of exposure to alcohol-based hand sanitizer.
The researchers highly recommended hand hygiene practices, and the use of disinfectants with appropriate alcohol concentrations, as proposed by the World Health Organisation.
This study also acknowledged limitations such as the relationship between the amount of virus remaining on the surface and the risk of transmission is still unclear at this stage. Therefore, it might be reasonable to interpret the value of survival time in this study as a reference value, the researchers said.
Source: IANS