期刊
JOURNAL OF PHYSICS D-APPLIED PHYSICS
卷 55, 期 29, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1088/1361-6463/ac6a8c
关键词
atmospheric pressure plasma; hydroxyl radical; the superoxide anion radical; human coronavirus
资金
- JST COI [JPMJCE1303]
- JSPS KAKENHI [18H03687, 19K14698, 21K13906, 01222001, 01223002]
- Grants-in-Aid for Scientific Research [21K13906, 19K14698, 18H03687] Funding Source: KAKEN
The recent global COVID-19 pandemic has led to a high demand for an effective virus inactivation method. This study evaluated the potential and mechanism of human coronavirus inactivation using atmospheric pressure plasma (APP) technology. The results showed that a 30-second exposure to APP significantly reduced the HCoV-229E titers, indicating strong virus-inactivation efficacy. It was found that the production of reactive oxygen and nitrogen species (RONS), particularly O-2 (center dot-), played a crucial role in the inactivation process. These findings provide new insights into a more efficient method for inactivating human coronaviruses using APPs.
The recent global pandemic of Corona Virus Disease-19 has impacted all aspects of society, producing a growing demand for a powerful virus inactivation method. To assess a potential and mechanism of human coronavirus inactivation using atmospheric pressure plasma (APP) technology, replication of a human coronavirus (HCoV-229E) after He + H2O APP plume exposure was evaluated using rhesus monkey kidney epithelial cells. The HCoV-229E titers were reduced by 3 log(10)TCID(50) after the APP exposure for 30 s, showing a strong virus-inactivation efficacy of the APP. It was experimentally verified that the APP produced the liquid-phase reactive oxygen and nitrogen species (RONS) at high rates [e.g. (OH)-O-center dot: similar to 1.7 nmol s(-1), H2O2 (including H2O2 precursors): similar to 9.2 nmol s(-1), NO2 (-) (including NO2 (-) precursors): similar to 3.3 nmol s(-1)]. However, an administration of H2O2 with NO2 (-) failed to inactivate the virus and only Mn type superoxide dismutase among several RONS scavengers for (OH)-O-center dot, HO2 (center dot)/O-2 O-center dot-, 1(2), and (NO)-N-center dot/(NO2)-N-center dot was significantly effective for the recovery of the APP-induced decrease in the viral titers. This suggests O-2 (center dot-)-related chemical reaction in a network of interconnected reactions induced by the APP exposure is very important for the APP-induced virus inactivation. These results provide new insight into a more efficient inactivation method of human coronavirus using APPs.
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