4.7 Article

UV-A Radiation: Safe Human Exposure and Antibacterial Activity

Journal

Publisher

MDPI
DOI: 10.3390/ijms24098331

Keywords

UV-A radiation; skin exposure; eye exposure; Escherichia coli; Pseudomonas aeruginosa; Staphylococcus aureus

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UV radiation has both sterilization effects and adverse health effects in humans. UV-A radiation has lower antimicrobial effect but lower health risk, and it can be used to sanitize environments with human presence in controlled exposure conditions. The study investigated safe exposure conditions for a UV-A lamp and efficient sanitization of the environment. Antibacterial activity was observed with longer exposure time and shorter distance from the source, and the modulation of factors like distance, exposure time, and irradiation angle can ensure effective antibacterial activity and human safety.
UV radiation is used for sterilization but has adverse health effects in humans. UV-A radiation has lower antimicrobial effect than UV-B and UV-C but constitutes a lower health risk, opening up the possibility to sanitize environments with human presence in controlled exposure conditions. We investigated this possibility by identifying safe exposure conditions to a UV-A lamp along with efficient sanitization of the environment. The human exposure limits were calculated following the guidelines provided by the International Commission on Non-Ionizing Radiation Protection and the International Commission on Illumination. Antibacterial activity was evaluated on Escherichia coli, Pseudomonas aeruginosa and Staphylococcus aureus. The maximum human exposure duration has been identified at different irradiation distance and angle, increasing with the increase of both parameters. Bactericidal activity was observed in all microorganisms and was higher with higher exposure time and at lower distance from the source. Noteworthily, in equal conditions of radiant exposure, the exposure time impacts on the bactericidal activity more than the distance from the source. The modulation of factors such as distance from the source, exposure time and irradiation angle can enable effective antibacterial activity and human safety. Prolonged direct irradiation of the surfaces associated with indirect human exposure represents the condition of greater efficacy and safety.

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