Although the dose measurement system used in our study (FastCheck Mediland, Taoyuan City , Taiwan) is semi-quantitative, it allowed us to detect if the dose reached adequate values for disinfection and to repeat the application when the value was not satisfactory. However, each dose value exceeded the expected value. This demonstrates that the device was positioned correctly in order to avoid shadow areas, although it was necessary to properly place furniture and equipment to improve the irradiation of all surfaces. In the study conducted by Wong et al., the R-D Rapid Disinfector system (Steriliz, Rochester, NY, USA) was used in a tertiary care hospital to evaluate the incremental benefit of UV-C disinfection in isolation rooms after the discharge of infected patients. The employed robot used four detached sensors to directly measure the UV-C light [

Improving the cleaning and disinfection of high-touch surfaces is one of the core components of reducing healthcare-associated infections. The effectiveness of an enhanced protocol applying UV-C irradiation for terminal room disinfection between two successive patients was evaluated. Twenty high-touch surfaces in different critical areas were sampled according to ISO -, both immediately pre- and post-cleaning and disinfection standard operating protocol (SOP) and after UV-C disinfection ( sampling sites in each condition, in total). Dosimeters were applied at the sites to assess the dose emitted. A total of .% (/) of the sampling sites tested after SOP were positive, whereas only .% (/) were positive after UV-C. According to the national hygienic standards for health-care setting, .% (/) resulted in being non-compliant after SOP and only .% (/) were non-compliant after UV-C disinfection. Operation theaters was the setting that resulted in being less compliant with the standard limit (&#x; colony-forming unit/ cm

Hospital environmental hygiene is a complex process because it is influenced by several variables, such as the type of surface, incorrect disinfectant contact times, excessive dilution of disinfectant solutions, and potential biocide/antibiotic cross-resistance. In addition, it has been shown that the use of contaminated cloths and/or solutions promotes the spread of microorganisms between different environments [

The disinfection of the air with UV-C is performed by irradiating the upper-room air only, the whole room when unoccupied, or the air flowing inside the air-handling units. The study conducted by McGinn et al. demonstrated the feasibility of using a UV-C robotic system to disinfect both air and surfaces in a radiology environment, where it was two and four times faster than currently used chemical approaches [

In the OT and ICU, where the limit for hygiene quality is defined by national guidelines, respectively, % (/) and % (/) of the surface samples resulted in being non-compliant after SOP. In the ward rooms, according to the standard reported in the literature, % (/) of the sampled sites resulted in being non-compliant. All of the samples were compliant after UV-C disinfection. In all of the settings, % (/) of the sampled points received a medium UV-C dose of mJ/cm