# Impact of a UV-C Multiemitter Disinfection System on Hospital Environmental Bioburden and Inactivation of Clinically Relevant Pathogens

**Authors:** Edgar Fiscal-Baxin, Auria del Carmen López-Hernández, María Fernanda González-Ruiz, Gabriel Carrisoza-Martínez, Adriana Lisbeth Lopez-Avila, Daniela Moreno-Torres, Adolfo López-Ornelas, Clemente Cruz-Cruz, Emilio Mariano Durán-Manuel, Miguel Ángel Loyola-Cruz, Magnolia del Carmen Ramírez-Hernández, Gustavo Esteban Lugo-Zamudio, Oscar Sosa-Hernández, Luis Gustavo Zárate-Sánchez, Paulina Carpinteyro-Espin, Rocio Flores-Paz, Dulce M. Razo Blanco-Hernández, Alicia Jiménez-Alberto, Juan A. Castelán-Vega, Claudia C. Calzada-Mendoza, Juan Manuel Bello-López

PMC · DOI: 10.3390/pathogens15030246 · Pathogens · 2026-02-25

## TL;DR

A UV-C multiemitter system effectively reduces microbial contamination in hospitals, including airborne and surface pathogens.

## Contribution

Demonstrates the efficacy of a 254 nm UV-C system in disinfecting hospital environments and inactivating clinical pathogens.

## Key findings

- UV-C intervention reduced airborne microbial load by over 91.5% and surface contamination by 96.1%.
- In vitro tests showed ≥99.99% to 100% elimination of planktonic microorganisms and complete loss of viability in mature biofilms.
- The system achieved total disinfection in multiple critical hospital zones.

## Abstract

Healthcare-associated infections remain a central hospital challenge, particularly in critical areas where invasive procedures and microbial contamination overlap. The hospital environment, including air and high-touch surfaces, acts as a persistent microorganism source that favors stability and spread. UV-C disinfection systems have become complementary tools to conventional cleaning. This study evaluated the disinfectant efficacy of a 254 nm multiemitter UV-C system under in situ and in vitro conditions. A 254 nm UV-C multiemitter system was deployed to eight hospital areas selected for epidemiological relevance. Air and surface sampling were conducted before and after standardized UV-C cycles. The bacterial and fungal aerobiome was quantified (CFU/m3) and surfaces were characterized by MALDI-TOF mass spectrometry. In vitro assays tested efficacy against planktonic cultures and mature biofilms of clinical ESKAPE isolates and C. albicans. The UV-C intervention achieved mean aerobiome reductions above 91.5%, with complete elimination in multiple critical zones. Surface contamination was reduced by 96.1%, including total disinfection across several sampled points. In vitro testing showed ≥99.99% to 100% elimination of planktonic microorganisms. Mature biofilms exhibited full loss of viability after UV-C exposure, independent of biofilm architecture and structural complexity. Therefore, the 254 nm UV-C multiemitter system significantly reduced environmental microbial burden in critical hospital areas, supporting its integration within infection-prevention programs and reinforcing environmental biosafety through the control of the microbial sources involved in transmission dynamics.

## Full-text entities

- **Diseases:** infection (MESH:D007239)
- **Chemicals:** Multiemitter (-)
- **Species:** Candida albicans (species) [taxon 5476]

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13028887/full.md

## References

48 references — full list in the complete paper: https://tomesphere.com/paper/PMC13028887/full.md

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Source: https://tomesphere.com/paper/PMC13028887