比较Accelerate PhenoTest BC试剂盒与基质辅助激光解吸电离飞行时间质谱/MicroScan WalkAway微生物鉴定药敏分析系统用于快速鉴定和检测引起血流感染的革兰氏阴性杆菌的抗菌药敏性
Comparison of Accelerate PhenoTest BC Kit and MALDI-TOF MS/VITEK 2 System for the rapid identification and antimicrobial susceptibility testing of gram-negative bacilli causing bloodstream infections.
作者信息
Stokes William, Campbell Lorraine, Pitout Johann, Conly John, Church Deirdre, Gregson Dan
机构信息
Department of Medicine, University of Calgary, Calgary, Alberta, Canada.
Calgary Laboratory Services, Calgary, Alberta, Canada.
出版信息
J Assoc Med Microbiol Infect Dis Can. 2020 Oct 11;5(3):145-157. doi: 10.3138/jammi-2020-0004. eCollection 2020 Oct.
BACKGROUND
Our laboratory uses matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI) and the VITEK 2 system (DV2) directly from positive blood cultures (BC) for organism identification (ID) and antimicrobial susceptibility testing (AST). Our objective was to compare direct MALDI-DV2 with a commercial BC ID-AST platform, the Accelerate Pheno system (AXDX), in the ID-AST of clinical and seeded BC positive for gram-negative bacilli (GNB).
METHODS
BC positive for GNB were collected over a 3-mo period and tested using AXDX and direct MALDI-DV2 and compared with conventional methods. A subset of sterile BC were seeded with multi-drug-resistant GNB.
RESULTS
Twenty-nine clinical samples and 35 seeded samples were analyzed. Direct MALDI had a higher ID failure rate (31.0%) than AXDX (3.4%; < 0.001). Time to ID-AST was 1.5-6.9 h, 5.8-16.5 h, and 21.6-33.0 h for AXDX, direct MALDI-DV2, and conventional methods, respectively ( < 0.001). For clinical samples, AXDX and DV2 had essential agreement (EA) or categorical agreement (CA) of more than 96%. For seeded samples, AXDX had EA, CA, VME, ME, and minor error (mE) of 93.2%, 89.0%, 2.2%, 0%, and 9.2%, respectively. AXDX had a large number of non-reports (6.1%) stemming from meropenem testing. DV2 had EA, CA, VME, ME, and mE of 97.5%, 94.7%, 1.3%, 0%, and 4.1%, respectively.
CONCLUSIONS
Direct MALDI-DV2 and AXDX both had high agreement for clinical samples, but direct MALDI-DV2 had higher agreement when challenged with MDR GNB.
背景
我们实验室使用基质辅助激光解吸/电离飞行时间质谱(MALDI)和VITEK 2系统(DV2)直接对阳性血培养物(BC)进行微生物鉴定(ID)和抗菌药物敏感性测试(AST)。我们的目标是在革兰氏阴性杆菌(GNB)阳性的临床和接种血培养物的ID-AST中,将直接MALDI-DV2与商业血培养ID-AST平台Accelerate Pheno系统(AXDX)进行比较。
方法
在3个月的时间内收集GNB阳性的血培养物,使用AXDX和直接MALDI-DV2进行检测,并与传统方法进行比较。对一部分无菌血培养物接种耐多药GNB。
结果
分析了29份临床样本和35份接种样本。直接MALDI的ID失败率(31.0%)高于AXDX(3.4%;P<0.001)。AXDX、直接MALDI-DV2和传统方法的ID-AST时间分别为1.5 - 6.9小时、5.8 - 16.5小时和21.6 - 33.0小时(P<0.001)。对于临床样本,AXDX和DV2的基本一致性(EA)或分类一致性(CA)超过96%。对于接种样本,AXDX的EA、CA、非常重大错误(VME)、重大错误(ME)和微小错误(mE)分别为93.2%、89.0%、2.2%、0%和9.2%。AXDX有大量源于美罗培南检测的无报告情况(6.1%)。DV2的EA、CA、VME、ME和mE分别为97.5%、94.7%、1.3%、0%和4.1%。
结论
直接MALDI-DV2和AXDX对临床样本的一致性都很高,但在耐多药GNB检测中,直接MALDI-DV2的一致性更高。
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