Davidson John M, Ondrak Jeff D, Anderson Arn A, Swinford Amy K, Erol Erdal
Department of Large Animal Clinical Sciences, College of Veterinary Medicine and Biomedical Sciences, Texas A&M University, College Station, TX 77843, USA.
J Am Vet Med Assoc. 2011 Dec 15;239(12):1589-93. doi: 10.2460/javma.239.12.1589.
To evaluate effects of high incubation temperatures on results of protozoal culture and real-time PCR testing for Tritrichomonas foetus inoculated in a commercially available self-contained culture media system.
In vitro experimental study.
2 strains of T foetus (1 field isolate from the University of California-Davis and 1 field isolate from the Texas Veterinary Medical Diagnostic Laboratory).
2 sets of 36 dual-chamber media pouches were inoculated with T foetus (36 sample pouches/strain) and incubated at temperatures of 37.0°C (98.6°F), 46.1°C (115.0°F), or 54.4°C (130.0°F) for 1, 3, 6, or 24 hours. Six uninoculated media samples in pouches stored at 37.0°C for the entire treatment period were used as negative controls. Pouches were removed from incubators and stored at 22.2°C (72.0°F) until all treatments were complete. Samples were submitted to a diagnostic laboratory for protozoal culture and real-time PCR testing.
T foetus was detectable microscopically in inoculated pouches incubated at 37.0°C regardless of exposure time, whereas those incubated at 46.1°C yielded T foetus after 1 and 3 hours only, and those incubated at 54.4°C yielded T foetus after 1 hour only. Testing via real-time PCR assay yielded positive results for all inoculated media samples and negative results for all uninoculated control samples.
Samples collected into the self-contained culture media system for T foetus testing via culture alone should be protected from high temperatures. Realtime PCR amplification may be a more reliable method for identification of the organism if storage and transport temperatures cannot be controlled.
评估高温孵育对接种于市售独立培养基系统中的胎儿三毛滴虫原虫培养结果及实时荧光定量PCR检测结果的影响。
体外实验研究。
2株胎儿三毛滴虫(1株来自加利福尼亚大学戴维斯分校的野外分离株和1株来自德克萨斯兽医医学诊断实验室的野外分离株)。
将2组共36个双腔培养基袋接种胎儿三毛滴虫(每组36个样本袋/菌株),并在37.0°C(98.6°F)、46.1°C(115.0°F)或54.4°C(130.0°F)的温度下孵育1、3、6或24小时。将6个在整个处理期间储存在37.0°C的未接种培养基样本用作阴性对照。将培养袋从培养箱中取出,储存在22.2°C(72.0°F)直至所有处理完成。将样本送至诊断实验室进行原虫培养和实时荧光定量PCR检测。
在37.0°C孵育的接种培养袋中,无论暴露时间长短,均可通过显微镜检测到胎儿三毛滴虫;而在46.1°C孵育的培养袋中,仅在孵育1小时和3小时后检测到胎儿三毛滴虫;在54.4°C孵育的培养袋中,仅在孵育1小时后检测到胎儿三毛滴虫。通过实时荧光定量PCR检测,所有接种培养基样本均呈阳性结果,所有未接种对照样本均呈阴性结果。
仅通过培养对收集到独立培养基系统中用于胎儿三毛滴虫检测的样本,应避免高温。如果储存和运输温度无法控制,实时荧光定量PCR扩增可能是一种更可靠的病原体鉴定方法。
