Your search keyword '"Sicher, Claudia"' showing total 3 results

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

Author

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., and Zwicker, Paula

Subjects

ORAL mucosa, IRRADIATION, DNA damage, CYTOTOXINS, CELL survival, MUCOUS membranes

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 UV-B. Eradication efficiency was evaluated by counting colony forming units; irritation potential was evaluated by hen's egg-chorioallantoic membrane assay and trans epithelial electrical resistance; cell viability was assessed by MTT. DNA damage and cell protective mechanisms were evaluated immunohistopathologically. On mucosa models, MRSA reduced by ≈ 5 log10 for 60 mJ/cm2 irradiation at 233 nm. A slightly increased cell viability was observed after 24 h. Lower doses showed lower irritation potential than the positive controls or commercial mouthwash, while 80 mJ/cm2 had strong irritation potential. DNA damage occurred only superficially and decreased after 24 h. On excised human mucosa, < 10% of keratinocytes were affected after 150 mJ/cm2 222 nm or 60 mJ/cm2 233 nm. [ABSTRACT FROM AUTHOR]

Published

2023

2. Application of 233 nm far-UVC LEDs for eradication of MRSA and MSSA and risk assessment on skin models.

Author

Zwicker, Paula, Schleusener, Johannes, Lohan, Silke B., Busch, Loris, Sicher, Claudia, Einfeldt, Sven, Kneissl, Michael, Kühl, Anja A., Keck, Cornelia M., Witzel, Christian, Kramer, Axel, and Meinke, Martina C.

Subjects

METHICILLIN-resistant staphylococcus aureus, DNA damage, RISK assessment, LIGHT sources, VISIBLE spectra

Abstract

A newly developed UVC LED source with an emission wavelength of 233 nm was proved on bactericidal efficacy and skin tolerability. The bactericidal efficacy was qualitatively analysed using blood agar test. Subsequently, quantitative analyses were performed on germ carrier tests using the MRSA strain DSM11822, the MSSA strain DSM799, S. epidermidis DSM1798 with various soil loads. Additionally, the compatibility of the germicidal radiation doses on excised human skin and reconstructed human epidermis was proved. Cell viability, DNA damage and production of radicals were assessed in comparison to typical UVC radiation from discharge lamps (222 nm, 254 nm) and UVB (280–380 nm) radiation for clinical assessment. At a dose of 40 mJ/cm2, the 233 nm light source reduced the viable microorganisms by a log10 reduction (LR) of 5 log10 levels if no soil load was present. Mucin and protein containing soil loads diminished the effect to an LR of 1.5–3.3. A salt solution representing artificial sweat (pH 8.4) had only minor effects on the reduction. The viability of the skin models was not reduced and the DNA damage was far below the damage evoked by 0.1 UVB minimal erythema dose, which can be regarded as safe. Furthermore, the induced damage vanished after 24 h. Irradiation on four consecutive days also did not evoke DNA damage. The radical formation was far lower than 20 min outdoor visible light would cause, which is classified as low radical load and can be compensated by the antioxidant defence system. [ABSTRACT FROM AUTHOR]

Published

2022

3. Skin tolerant inactivation of multiresistant pathogens using far-UVC LEDs.

Author

Glaab, Johannes, Lobo-Ploch, Neysha, Cho, Hyun Kyong, Filler, Thomas, Gundlach, Heiko, Guttmann, Martin, Hagedorn, Sylvia, Lohan, Silke B., Mehnke, Frank, Schleusener, Johannes, Sicher, Claudia, Sulmoni, Luca, Wernicke, Tim, Wittenbecher, Lucas, Woggon, Ulrike, Zwicker, Paula, Kramer, Axel, Meinke, Martina C., Kneissl, Michael, and Weyers, Markus

Subjects

METHICILLIN-resistant staphylococcus aureus, MICROBIAL inactivation, LIGHT emitting diodes, BLOOD agar, DNA damage

Abstract

Multiresistant pathogens such as methicillin-resistant Staphylococcus aureus (MRSA) cause serious postoperative infections. A skin tolerant far-UVC (< 240 nm) irradiation system for their inactivation is presented here. It uses UVC LEDs in combination with a spectral filter and provides a peak wavelength of 233 nm, with a full width at half maximum of 12 nm, and an irradiance of 44 µW/cm2. MRSA bacteria in different concentrations on blood agar plates were inactivated with irradiation doses in the range of 15–40 mJ/cm2. Porcine skin irradiated with a dose of 40 mJ/cm2 at 233 nm showed only 3.7% CPD and 2.3% 6-4PP DNA damage. Corresponding irradiation at 254 nm caused 15–30 times higher damage. Thus, the skin damage caused by the disinfectant doses is so small that it can be expected to be compensated by the skin's natural repair mechanisms. LED-based far-UVC lamps could therefore soon be used in everyday clinical practice to eradicate multiresistant pathogens directly on humans. [ABSTRACT FROM AUTHOR]

Published

2021