Summanen P H, McTeague M, Väisänen M L, Strong C A, Finegold S M
Research Service, VA Wadsworth Medical Center, Los Angeles, CA 90073, USA.
Anaerobe. 1999 Feb;5(1):5-9. doi: 10.1006/anae.1999.0184.
The Anoxomat system provides an automated evacuation-replacement technique to create an anaerobic or microaerophilic environment in a jar. We evaluated the Anoxomat system for the growth of obligate anaerobes and for the recovery of anaerobic organisms from clinical specimens, and compared its performance to that of an anaerobic chamber and the GasPak System. Of the 54 stock strains tested, the Anoxomat, the chamber, and the GasPak recovered 95%, 95% and 93% at 24 h, respectively. On 29 occasions (51%), the colonies on the Anoxomat plates were slightly larger than those in the chamber and on 17 (30%) occasions larger than the colonies on the GasPak jar plates. At 48 h, the Anoxomat, the chamber, and the GasPak recovered 93.5%, 94.4% and 88.9%, respectively; of 108 anaerobes isolated from 31 clinical specimens. Methylene blue indicators became decolorized (average of 10 tests) within 2 h inside the Anoxomat jars, 2 h 10 min inside the anaerobic chamber, and 2 h 30 min inside the GasPak jars.
Anoxomat系统提供了一种自动抽空-置换技术,可在广口瓶中营造厌氧或微需氧环境。我们评估了Anoxomat系统用于专性厌氧菌生长以及从临床标本中复苏厌氧生物的效果,并将其性能与厌氧箱和GasPak系统进行了比较。在所测试的54株菌株中,Anoxomat系统、厌氧箱和GasPak系统在24小时时的回收率分别为95%、95%和93%。在29次(51%)情况下,Anoxomat平板上的菌落比厌氧箱中的稍大,在17次(30%)情况下比GasPak广口瓶平板上的菌落大。在48小时时,Anoxomat系统、厌氧箱和GasPak系统的回收率分别为93.5%、94.4%和88.9%;从31份临床标本中分离出108株厌氧菌。亚甲蓝指示剂在Anoxomat广口瓶内2小时内(10次测试的平均值)、厌氧箱内2小时10分钟内以及GasPak广口瓶内2小时30分钟内褪色。