Border B G, Rice-Spearman L
Department of Diagnostic and Primary Care, TTUHSC, Lubbock 79430, USA.
Clin Lab Sci. 1999 May-Jun;12(3):156-60.
We hypothesize that microwave irradiation of certain contaminated materials typically used in a clinical laboratory or a home healthcare setting could produce efficient and effective sterilization when compared to standard autoclave methods.
A standard household carousel microwave oven unit used at the High setting was employed to expose certain materials that had been contaminated with either bacteria or yeast to microwaves for specific intervals of time. Following each time interval, materials were checked for effectiveness of decontamination using standard culture techniques and colony counting. Additionally, powdered media was prepared and microwave irradiated for specific times. The media was then poured into plates and checked for microbial contamination; another set of plates was examined to determine the ability of the irradiated media to support bacterial growth.
This study was carried out at Texas Tech University Health Sciences Center in Lubbock TX.
Standard culture and colony counting techniques were used to determine the efficacy of microwave sterilization.
The study indicated that microwave irradiation provided effective and efficient sterilization of all materials tested. Of the bacteria studied, only E. coli survived beyond 30 seconds of microwave exposure. Yeast did not survive beyond 15 seconds of microwave exposure. Swabs and gauze contaminated with bacteria or yeast were completely sterilized after 30 seconds. After three minutes in the microwave oven, powdered, prepared media was free of contamination while able to support growth when inoculated with S. aureus.
We conclude that a household carousel microwave oven unit can provide fast, effective sterilization of certain contaminated materials typically used in a clinical laboratory, student laboratory, or home healthcare setting.
我们假设,与标准高压灭菌法相比,对临床实验室或家庭医疗环境中常用的某些受污染材料进行微波辐照可实现高效有效的灭菌。
使用一台标准家用转盘式微波炉,设置为高功率档,将某些被细菌或酵母菌污染的材料暴露于微波下特定时间间隔。每个时间间隔结束后,使用标准培养技术和菌落计数检查材料的去污效果。此外,制备粉末状培养基并进行特定时间的微波辐照。然后将培养基倒入培养皿中检查是否有微生物污染;检查另一组培养皿以确定辐照后的培养基支持细菌生长的能力。
本研究在德克萨斯理工大学健康科学中心(位于德克萨斯州拉伯克)进行。
使用标准培养和菌落计数技术确定微波灭菌的效果。
研究表明,微波辐照对所有测试材料都能提供有效且高效的灭菌。在所研究的细菌中,只有大肠杆菌在微波暴露30秒后仍存活。酵母菌在微波暴露15秒后均未存活。被细菌或酵母菌污染的拭子和纱布在30秒后完全灭菌。在微波炉中放置三分钟后,粉末状的制备好的培养基没有污染,接种金黄色葡萄球菌后仍能支持其生长。
我们得出结论,家用转盘式微波炉可对临床实验室、学生实验室或家庭医疗环境中常用的某些受污染材料提供快速、有效的灭菌。
