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Can Far-UVC help in improving Bathroom Decontamination?
Emilie Hage Mogensen : 17 Dec, 2024
Maintaining cleanliness and reducing contamination in bathrooms, especially in healthcare settings, has long been a challenge. Aerosols generated during toilet flushing are known to carry viral and bacterial pathogens, posing a risk of disease transmission. Manual cleaning after each use is impractical, highlighting the need for automated solutions. A recent study, Evaluation of an Automated Far Ultraviolet-C Light Technology for Decontamination of Surfaces and Aerosolized Viruses in Bathrooms, evaluates efficacy the of Far-UVC in a hospital bathroom.
Key Findings: Far-UVC Reduces Pathogens Causing HAIs
The study assessed the effectiveness of Far-UVC in reducing pathogens such as methicillin-resistant Staphylococcus aureus (MRSA), vancomycin-resistant Enterococci (VRE), and Candida auris in a real-world bathroom setting. These pathogens are well-known causes of severe hospital-acquired infections, and their spread is a major concern in hospitals.
Results demonstrated substantial pathogen reduction within just 45 minutes of Far-UVC exposure, with even greater reductions after 2 hours on all the tested surfaces, ranging from impressive 93 to 99.99%. By decreasing the presence of these pathogens in hospitals, Far-UVC technology has the potential to reduce pathogen transmission between vulnerable patients.
Far-UVC inactivation of Clostridioides difficile spores
Clostridioides difficile spores, known for their resistance to chemical disinfectants and some UV treatments, pose a unique challenge in hospitals due to their role in causing severe diarrhea among patients.
As expected, the study found that these spores were more difficult to inactivate, but by extending Far-UVC exposure to 24 hours, a 99% reduction of these resilient spores was achieved on various bathroom surfaces. This finding indicates that while C. difficile spores are challenging, but Far-UVC can still play a role in reducing their presence in healthcare settings.
Far-UVC improves air quality by inactivating airborne viruses
The study also assessed Far-UVC’s effectiveness against airborne viruses in the bathroom. Within just 45 minutes, 99.99% of airborne viruses were inactivated, supporting Far-UVC’s ability to enhance air quality by significantly reducing infectious airborne viruses.
Check out this deep dive on virus reduction for insights into how Far-UVC works in occupied spaces.
Are you curious about Far-UVC’s role in advanced air purification? Explore its connection to equivalent air changes (eACH) in this article.
Safety and Usability in Occupied Spaces
Far-UVC technology has a primary advantage over traditional 254-nm UVC devices in its safety for human exposure. Conventional UVC devices at 254 nm require strict monitoring to prevent accidental exposure, as they can harm skin and eyes, potentially causing skin cancer or cataracts. In contrast, Far-UVC at 222nm does not penetrate beyond the most superficial epidermal layers and is safe for use within threshold limits set by organizations like the American Conference of Governmental Industrial Hygienists (ACGIH). This makes Far-UVC practical for continuous use in occupied bathrooms.
Implications for Healthcare and Community Settings
The study’s findings underscore Far-UVC technology's potential to reduce pathogen transmission in shared bathrooms across healthcare, community, and hospitality settings. Hospitals, in particular, face a high risk of healthcare-associated infections (HAIs), and bathrooms have been implicated as contamination sources. By integrating Far-UVC technology into routine decontamination protocols, healthcare facilities could add an extra layer of pathogen protection without additional manual cleaning.
Beyond healthcare, Far-UVC technology could be beneficial in high-traffic areas like schools, airports, and public restrooms, where large numbers of people interact daily. Its consistent pathogen reduction, even in hard-to-clean areas, makes this technology a promising tool for enhancing public health and hygiene.
Conclusions
With supporting evidence of both efficacy and safety, Far-UVC emerges as a practical, forward-thinking solution for automated decontamination, in healthcare and beyond. This study demonstrates that Far-UVC can effectively reduce the pathogen load on various surfaces in a hospital bathroom. As this technology advances, it holds significant promise for reducing the spread of infectious diseases, one bathroom at a time.