Telang R, Patil V, Ranganathan P, Kelkar R
Department of Anesthesiology, Critical Care and Pain, Tata Memorial Hospital, Mumbai, India.
J Postgrad Med. 2010 Oct-Dec;56(4):257-61. doi: 10.4103/0022-3859.70930.
The laryngoscope has been identified as a potential source of cross-infection, because of blood and bacterial contamination. In India, there are no guidelines for cleaning and disinfection of anesthesia-related equipment. Practices for decontamination of laryngoscopes vary widely and in most healthcare institutes, laryngoscope blades are re-used after cleaning with tap-water.
We prospectively compared two techniques for decontamination of laryngoscope blades - a) washing with tap-water and b) washing with tap-water followed by disinfection by immersing in 5% v/v (volume/volume, 1:20 dilution) aldehyde-free biguanide agent for 10 min. We calculated the cost-effectiveness of using 5% v/v aldehyde-free biguanide agent for disinfection of laryngoscopes. We also conducted a survey to assess the decontamination practices in other Indian hospitals.
Overall bacterial growth was 58% (29 out of 50 blades) after tap-water cleaning (of which 60% were pathogenic organisms) versus 3.4% (one out of 29 blades) after tap-water cleaning followed by immersion in disinfectant (all of which were commensals). The cost of disinfection with biguanide was Indian Rupees 1.13 (20 US cents) per laryngoscope. Most hospitals in India do not have guidelines regarding laryngoscope decontamination between uses, and cleaning with tap water is a commonly used method.
Cleaning of laryngoscope blades with tap-water is a commonly used but inadequate method for decontamination. Washing with tap-water followed by disinfection with 5% v/v aldehyde-free biguanide for at least 10 min is an effective and inexpensive alternative. National guidelines for the decontamination of anesthesia equipment are necessary.
喉镜已被确认为潜在的交叉感染源,因为存在血液和细菌污染。在印度,尚无关于麻醉相关设备清洁和消毒的指南。喉镜的去污做法差异很大,在大多数医疗机构中,喉镜叶片用自来水清洗后重复使用。
我们前瞻性地比较了两种喉镜叶片去污技术——a)用自来水冲洗;b)用自来水冲洗后,浸入5% v/v(体积/体积,1:20稀释)的无醛双胍剂中消毒10分钟。我们计算了使用5% v/v无醛双胍剂对喉镜进行消毒的成本效益。我们还进行了一项调查,以评估印度其他医院的去污做法。
自来水清洗后总体细菌生长率为58%(50个叶片中有29个)(其中60%为致病生物),而自来水清洗后再浸入消毒剂中的细菌生长率为3.4%(29个叶片中有1个)(所有这些均为共生菌)。双胍消毒的成本为每台喉镜1.13印度卢比(20美分)。印度大多数医院在喉镜使用之间没有关于去污的指南,用自来水清洗是常用的方法。
用自来水清洗喉镜叶片是常用但不充分的去污方法。先用自来水冲洗,然后用5% v/v无醛双胍消毒至少10分钟是一种有效且廉价的替代方法。制定麻醉设备去污的国家指南很有必要。
