用于检测序列型复合体131的环介导等温扩增技术的临床验证
Clinical validation of loop-mediated isothermal amplification for the detection of sequence type complex 131.
作者信息
Peirano Gisele, Castellanos L Ricardo, Matsumura Yasufumi, Chaffee Ryan, Castañeda-Mogollón Daniel, Pillai Dylan R, Pitout Johann D D
机构信息
Cummings School of Medicine, University of Calgary, Calgary, Alberta, Canada.
Alberta Precision Laboratories, Calgary, Alberta, Canada.
出版信息
J Clin Microbiol. 2024 Mar 13;62(3):e0168723. doi: 10.1128/jcm.01687-23. Epub 2024 Feb 22.
UNLABELLED
The dissemination of multidrug-resistant (MDR) STc131 is related to its persistence in the human gastrointestinal tract as efficient gut colonizers. Infection and prevention measures are the cornerstones for preventing STc131 spread. Oral decolonization therapies that target ST131 are being developed. There are no rapid methods available to identify STc131 in human specimens. A loop-mediated isothermal amplification (LAMP) assay (named LAMP-ST131) was developed for the detection of STc131 on well-characterized isolates and then compared to culture and PCR for urines and stool swabs. With isolates ( = 720), LAMP-ST131 had a sensitivity (sens) of 100% [95% confidence interval (C.I.) = 98.1-100%)] and a specificity (spec) of 98.9% (95% C.I. = 97.5-99.5%). On urines ( = 550), LAMP-ST131 had a sens of 97.6% (95% C.I. = 89.68-94.33%) and a spec of 92.3% (95% C.I. = 87.68-99.88%), while on stool swabs ( = 278), LAMP-ST131 had a sens of 100% (95% C.I. = 88.7-100%) and a spec of 83.9% (95% C.I. = 78.8-87.9%). LAMP-ST131 detected 10 (urines) and 100 (stool swabs) gene copies/μL. LAMP-ST131 accurately identified STc131 within isolates and human specimens. The implementation of LAMP-ST131 will aid genomic surveys, enable the rapid implementation of effective infection prevention measures, and identify patients suitable for ST131 decolonization therapies. Such approaches will curb the spread of STc131 and decrease incidence rates of global MDR infections.
IMPORTANCE
We developed an accurate non-culture-based loop-mediated isothermal amplification (LAMP) methodology for the detection of (sequence type) STc131 among isolates and human specimens. The use of LAMP-ST131 for global genomic surveillance studies and to identify patients that are suitable for ST131 decolonization therapies will be important for decreasing multidrug-resistant infections across the globe.
未标注
多重耐药(MDR)STc131的传播与其作为高效肠道定植菌在人类胃肠道中的持续存在有关。感染和预防措施是预防STc131传播的基石。针对ST131的口服去定植疗法正在研发中。目前尚无快速方法可在人类标本中鉴定STc131。我们开发了一种环介导等温扩增(LAMP)检测方法(命名为LAMP-ST131),用于在特征明确的分离株中检测STc131,然后与尿液和粪便拭子的培养及PCR方法进行比较。对于分离株(n = 720),LAMP-ST131的灵敏度(sens)为100%[95%置信区间(C.I.)= 98.1 - 100%],特异性(spec)为98.9%(95% C.I. = 97.5 - 99.5%)。对于尿液(n = 550),LAMP-ST131的sens为97.6%(95% C.I. = 89.68 - 94.33%),spec为92.3%(95% C.I. = 87.68 - 99.88%),而对于粪便拭子(n = 278),LAMP-ST131的sens为100%(95% C.I. = 88.7 - 100%),spec为83.9%(95% C.I. = 78.8 - 87.9%)。LAMP-ST131能检测到10(尿液)和100(粪便拭子)个基因拷贝/μL。LAMP-ST131能在分离株和人类标本中准确鉴定STc131。LAMP-ST131的应用将有助于基因组调查,使有效的感染预防措施得以迅速实施,并识别适合ST131去定植疗法的患者。此类方法将遏制STc131的传播并降低全球MDR感染的发病率。
重要性
我们开发了一种准确的基于非培养的环介导等温扩增(LAMP)方法,用于在分离株和人类标本中检测(序列类型)STc131。使用LAMP-ST131进行全球基因组监测研究以及识别适合ST131去定植疗法的患者,对于降低全球多重耐药感染至关重要。
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