摘要
目的探讨将酸性氧化电位水用于血液净化室物体表面消毒代替传统的含氯消毒剂消毒效果。方法2017年1~12月将血液净化室20台血液透析机及4架治疗车分别编号并分组,血液透析机1~10号、治疗车1~2号为实验组;血液透析机11~20号、治疗车3~4号为对照组。分别采用酸性氧化电位水(实验组)及含氯消毒剂(对照组)用于血液净化室透析机及治疗车表面消毒,每月采样作细菌学监测,共监测12个月,对监测结果进行统计分析,并观察受试物品有无腐蚀现象,有无刺激性气味。结果实验组及对照组每月采样细菌学培养均合格(≤10cfu/cm2),统计学处理无显著的差异(P>0.05);受试的物品无腐蚀现象,消毒后实验组无残余氯味,对照组有残余氯味;酸性氧化电位水取用方便,无需配置,而含氯消毒剂必须每次使用前现配现用。结论选用酸性氧化电位水用于血液净化室物体表面消毒,具有安全、有效、速效、经济、方便等优点。
Objective To investigate the disinfection effect of acidic oxidation potential water on the object surface in blood purification room instead of the traditional chlorine disinfectant. Methods Twenty hemodialysis machines and 4 treatment vehicles in the blood purification room from January to December 2017 were numbered and grouped separately. Hemodialysis machines 1 to 10 and treatment vehicles 1 to 2 were set as experimental groups.Hemodialysis machines 11-20, treatment vehicle 3-4 were set as the control group. Acidic oxidation potential water (experimental group) and chlorine-containing disinfectant(control group) were used for blood purification room dialysis machine and treatment vehicle surface disinfection. Samples were taken monthly for bacteriological monitoring for 12 months. The monitoring results were statistically analyzed, and whether the test article had corrosion phenomenon, with or without pungent odor was observed. Results The bacteriological cultures of samples in the experimental group and the control group monthly were all qualified (≤10 cfu/cm2), and there was no significant difference in statistical treatment(P>0.05). There was no corrosion in the tested items, and there was no residual chlorine in the experimental group after disinfection. The control group had residual chlorine. The acid oxidation potential water was convenient to use, and no configuration was required. The chlorine disinfectant must be prepared when using before each use. Conclusion Acidic oxidation potential water used for disinfection of object surface in blood purification room has the advantages of safety, effectiveness, quickness, economy and convenience.
作者
蔡敏
潘爱兰
钟武华
廖龙波
莫璐
CAI Min;PAN Ailan;ZHONG Wuhua;LIAO Longbo;MO Lu(Department of Hospital Infection Management,Lipu People's Hospital in Guangxi Zhuang Autonomous Region,Guilin 546699,China;Hospital Administrative Office,Lipu People's Hospital in Guangxi Zhuang Autonomous Region,Guilin 546699,China;Blood Purification Room,Lipu People's Hospital in Guangxi Zhuang Autonomous Region,Guilin 546699,China;Department of Laboratory,Lipu People's Hospital in Guangxi Zhuang Autonomous Region,Guilin 546699,China)
出处
《中国现代医生》
2019年第12期85-87,共3页
China Modern Doctor
基金
广西壮族自治区卫生和计划生育委员会自筹经费科研项目(Z20170748)
关键词
酸性氧化电位水
血液净化室
物体表面
消毒
Acidic oxidation potential water
Blood purification room
Surface of the object
Disinfection
