Irradiation of human oral mucosa by 233 nm far UV-C LEDs for the safe inactivation of nosocomial pathogens

Schleusener, Johannes; Lohan, Silke B.; Busch, Loris; Zamudio Díaz, Daniela F.; Opitz, Nevin; Sicher, Claudia; Lichtenthäler, Tom; Danker, Kerstin; Dommerich, Steffen; Filler, Thomas; Meinke, Martina C.; Zwicker, Paula

doi:10.1038/s41598-023-49745-3

Sci Rep

2023

DOI: 10.1038/s41598-023-49745-3

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Irradiation of human oral mucosa by 233 nm far UV-C LEDs for the safe inactivation of nosocomial pathogens

Johannes Schleusener,

Silke B. Lohan,

Loris Busch

et al.

Abstract: The inactivation of multi resistant pathogens is an important clinical need. One approach is UV-C irradiation, which was previously not possible in vivo due to cytotoxicity. Recently, far UV-C irradiation at λ < 240 nm was successfully used on skin with negligible damage. A potential application site is the nasal vestibule, where MRSA accumulates and cannot be treated using antiseptics. We irradiated 3D mucosa models and excised human mucosa with 222 and 233 nm far UV-C in comparison to 254 nm and broadband… Show more

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2024

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Studies on the Virucidal Effects of UV-C of 233 nm and 275 nm Wavelengths

Kohs,

Lichtenthäler,

Gouma

et al. 2024

Viruses

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Among the physical decontamination methods, treatment with ultraviolet (UV) radiation is a suitable means of preventing viral infections. Mercury vapor lamps (254 nm) used for room decontamination are potentially damaging to human skin (radiation) and harmful to the environment (mercury). Therefore, other UV-C wavelengths (100–280 nm) may be effective for virus inactivation on skin without damaging it, e.g., far-UV-C radiation with a wavelength of 233 nm, which is absorbed in the outer layer of the skin and thus does not reach the deeper layers of the skin. For room disinfection, 275 nm UV-C LED lamps could be a more environmentally friendly alternative, since toxic mercury is avoided. A carrier test using multiple viruses was used to determine the TCID50/mL value on stainless steel, PVC, and glass carriers. In addition to the inactivation kinetics (233 nm), the necessary UV-C dose for 4 lg inactivation (275 nm) was investigated. The impact of irradiance on the inactivation efficacy was also assessed. The inactivation of the viruses was a function of the radiation dose. UV-C-radiation at 233 nm (80 mJ/cm2) inactivated from 1.49 ± 0.08 to 4.28 ± 0.18 lg depending on the virus used. To achieve a 4 lg inactivation (275 nm) for enveloped viruses, doses of up to 70 mJ/cm2 (SuHV-1) were sufficient. For non-enveloped viruses, a maximum dose of 600 mJ/cm2 (MS2) was necessary. Enveloped viruses were inactivated with lower doses compared to non-enveloped viruses. Higher radiation doses were required for inactivation at 275 nm in comparison to 254 nm. A more environmentally friendly alternative to mercury vapor lamps is available with 275 nm LED emitters. Radiation at 233 nm could serve as an additional prophylactic or therapeutic measure for virus inactivation in direct contact with human skin.

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Studies on the Virucidal Effects of UV-C of 233 nm and 275 nm Wavelengths

Kohs,

Lichtenthäler,

Gouma

et al. 2024

Viruses

View full text Add to dashboard Cite

show abstract

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Irradiation of human oral mucosa by 233 nm far UV-C LEDs for the safe inactivation of nosocomial pathogens

Cited by 1 publication

References 48 publications

Studies on the Virucidal Effects of UV-C of 233 nm and 275 nm Wavelengths

Studies on the Virucidal Effects of UV-C of 233 nm and 275 nm Wavelengths

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