Herrera Sabina, Roca Ignasi, Del Río Ana, Fernández Javier, Pitart Cristina, Fortes Isabel, Torralbo Blanca, Santana Gemina, Parejo-González Romina, Veà-Baró Andreu, Campistol Josep Maria, Aguilar Mireia, Degea Sergi, Casals-Pascual Climent, Soriano Alex, Martínez José A
Infectious Disease Service, Hospital Clínic, University of Barcelona, IDIBAPS, Barcelona, Spain.
CIBER de Enfermedades Infecciosas (CIBERINFEC), Instituto de Salud Carlos III, Madrid, Spain.
Infect Prev Pract. 2024 Aug 29;6(4):100396. doi: 10.1016/j.infpip.2024.100396. eCollection 2024 Dec.
Ultraviolet- C (UV-C) light is effective for reducing environmental bioburden in hospitals, and the use of robots to deliver it may be advantageous.
To evaluate the feasibility and clinical efficacy of an autonomous programmable UV-C robot in surgical and intensive care unit (ICU) rooms of a tertiary hospital.
During ten consecutive months, the device was used in six theatres where cardiac, colorectal and orthopaedic surgeries were performed, and in the rooms previously occupied by patients subjected to contact precautions of a 14-bed ICU. Surgical site infection (SSI) rates of procedures performed in the UV-cleaned theatres were compared with those of the previous year. Incidence in clinical samples of ICU-acquired multiple-drug resistant (MDR) microorganisms was compared with that of the same period of the previous year. An UV-C exposure study done by semi-quantitative dosimeters and a survey of the bioburden on surfaces were carried out.
SSI rates in the pre- and post-intervention periods were 8.67% (80/922) and 7.5% (61/813), respectively (p=0.37). Incidence of target microorganisms in clinical samples remained unchanged (38.4 vs. 39.4 per 10,000 patient-days, p=0.94). All the dosimeters exposed to ≤1 meter received ≥500 mJ/cm. The bacterial load on surfaces decreased after the intervention, particularly in ICU rooms (from 4.57±7.4 CFU to 0.27±0.8 CFU, p<0.0001).
Deployment of an UV-C robot in surgical and ICU rooms is feasible, ensures adequate delivery of germicidal UV-C light and reduces the environmental bacterial burden. Rates of surgical site infections or acquisition of MDR in clinical samples of critically-ill patients remained unchanged.
紫外线-C(UV-C)光可有效降低医院环境中的生物负荷,使用机器人进行照射可能具有优势。
评估一款自主可编程UV-C机器人在一家三级医院的手术室和重症监护病房(ICU)使用的可行性和临床疗效。
在连续十个月的时间里,该设备被用于六个进行心脏、结直肠和骨科手术的手术室,以及一间拥有14张床位的ICU中曾有患者接受接触隔离措施的病房。将紫外线清洁后的手术室中进行的手术的手术部位感染(SSI)率与上一年的进行比较。将ICU获得的多重耐药(MDR)微生物临床样本的发生率与上一年同期进行比较。通过半定量剂量计进行了紫外线-C照射研究,并对表面生物负荷进行了调查。
干预前后的SSI率分别为8.67%(80/922)和7.5%(61/813)(p = 0.37)。临床样本中目标微生物的发生率保持不变(每10000患者日分别为38.4和39.4,p = 0.94)。所有距离≤1米的剂量计接收的紫外线均≥500 mJ/cm²。干预后表面细菌载量下降,尤其是在ICU病房(从4.57±7.4 CFU降至0.27±0.8 CFU,p<0.0001)。
在手术室和ICU病房部署UV-C机器人是可行的,可确保充分照射杀菌紫外线-C光,并减少环境细菌负荷。重症患者临床样本中的手术部位感染率或多重耐药菌感染率保持不变。
