Edward Hines, Jr, Veterans' Affairs Hospital, Hines, Illinois.
Loyola University Medical Center, Maywood, Illinois (Present affiliation: Metro Infectious Diseases Consultants, Burr Ridge, Illinois [B.Y.].).
Infect Control Hosp Epidemiol. 2020 Oct;41(10):1148-1153. doi: 10.1017/ice.2020.267. Epub 2020 Jun 24.
Most clinical microbiology laboratories have replaced toxin immunoassay (EIA) alone with multistep testing (MST) protocols or nucleic acid amplification testing (NAAT) alone for the detection of C. difficile.
Study the effect of changing testing strategies on C. difficile detection and strain diversity.
Retrospective study.
A Veterans' Affairs hospital.
Initially, toxin EIA testing was replaced by an MST approach utilizing a glutamate dehydrogenase (GDH) and toxin EIA followed by tcdB NAAT for discordant results. After 18 months, MST was replaced by a NAAT-only strategy. Available patient stool specimens were cultured for C. difficile. Restriction endonuclease analysis (REA) strain typing and quantitative in vitro toxin testing were performed on recovered isolates.
Before MST (toxin EIA), 79 of 708 specimens (11%) were positive, and after MST (MST-A), 121 of 517 specimens (23%) were positive (P < .0001). Prior to NAAT-only testing (MST-B), 80 of the 490 specimens (16%) were positive by MST, and after NAAT-only testing was implemented, 67 of the 368 specimens (18%) were positive (P = nonsignificant). After replacing toxin EIA testing, REA strain group diversity increased (8, 13, 13, and 10 REA groups in the toxin EIA, MST-A, MST-B, and NAAT-only periods, respectively) and in vitro toxin concentration decreased. The average log10 toxin concentration of the isolates were 2.08, 1.88, 1.20 and 1.55 ng/mL for the same periods, respectively.
MST and NAAT had similar detection rates for C. difficile. Compared to toxin testing alone, they detected increased diversity of C. difficile strains, many of which were low toxin producing.
大多数临床微生物学实验室已将毒素免疫测定(EIA)单独替换为多步骤检测(MST)方案,或单独进行核酸扩增检测(NAAT),以检测艰难梭菌。
研究改变检测策略对艰难梭菌检测和菌株多样性的影响。
回顾性研究。
退伍军人事务医院。
最初,用谷氨酸脱氢酶(GDH)和毒素 EIA 替代毒素 EIA 检测,然后对不一致的结果进行 tcdB NAAT 检测,随后采用 MST 方法。18 个月后,MST 被 NAAT 策略取代。可获得患者粪便标本进行艰难梭菌培养。对回收的分离株进行限制性内切酶分析(REA)菌株分型和定量体外毒素检测。
在 MST(EIA)之前,708 份标本中有 79 份(11%)为阳性,而在 MST(MST-A)后,517 份标本中有 121 份(23%)为阳性(P<0.0001)。在仅进行 NAAT 检测(MST-B)之前,MST 检测的 490 份标本中有 80 份(16%)为阳性,而实施仅进行 NAAT 检测后,368 份标本中有 67 份(18%)为阳性(P=无显著性差异)。替代毒素 EIA 检测后,REA 菌株组多样性增加(毒素 EIA、MST-A、MST-B 和仅进行 NAAT 检测期间分别为 8、13、13 和 10 个 REA 组),体外毒素浓度降低。同一时期分离株的平均对数 10 毒素浓度分别为 2.08、1.88、1.20 和 1.55ng/ml。
MST 和 NAAT 对艰难梭菌的检测率相似。与单独进行毒素检测相比,它们检测到艰难梭菌菌株的多样性增加,其中许多是低产毒素的。
