Combining Gram stain and 16S qPCR improved diagnostic accuracy for suspected pneumonia and could become a new metric in the rapid diagnosis of lower respiratory tract infections.

Yunas Panikkaveettil Hamza, Mohamed Ali Ben Hadj Kacem, Naema Hassan Al Molawi, Hadi Mohamad Yassine, Hebah Atef Mohammad AlKhatib, Fatiha Benslimane, Hanan Ibrahim Kh B Al-Remaihi, Reham Awni El Kahlout, Basema Ibrahim Ahmed El Kahlout, Hajar Al Khalili, Makiyeh Ahmed Al Khalili, Sanjay H Doiphode, Emad Bashier Ibrahim Elmagboul, Javed Akhter, Einas A/Aziz Eid Al Kuwari, Peter V Coyle
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Abstract

Introduction. The frequency of multidrug-resistant organisms (MDROs) in hospitals and the risk of delaying effective treatment result in the culture of respiratory secretions for nearly all patients with suspected pneumonia. Culture delays contribute to over prescribing and use of broader spectrum antibiotics.Gap statement. The need for improved rapid diagnostics for early assessment of suspected hospital pneumonia.Aim. To validate a new metric, enhanced Gram stain (EGS), to provide a rapid diagnostic test of high diagnostic accuracy that could be assessed in clinical trials of the use of antibiotics in suspected pneumonia.Methodology. Ninety-two residual lower respiratory samples previously tested by culture and Gram stain were re-tested by 16S ribosomal DNA real-time polymerase chain reaction (16S qPCR) and reported as a combined metric with Gram stain termed EGS. The EGS was assessed for diagnostic accuracy, standard performance measurements and correlation against culture. For samples with discordance between culture and EGS, 16S ribosomal DNA whole operon sequencing (16S rDNA WOS) was used for test resolution. An amended EGS (A-EGS was reassessed against culture.Results. Gram stain, 16S qPCR, EGS and A-EGS had respective diagnostic accuracies of 77.01 %, 82.76 %, 84.04 % and 94.19 %. The same platforms had respective correlation with culture of r = 0.67, r = 0.71, r = 0.81 and r = 0.89. EGS had the highest negative predictive value (NPV) of 93.18 % (81.99 %-97.62 %). Adding an 16S qPCR result is achievable in most routine laboratories and, combined with Gram stain, could improve early decision-making in patients with suspected hospital pneumonia.Conclusion. EGS could improve early decision-making in patients with suspected hospital pneumonia and could be assessed in clinical trials. The 16S rDNA WOS results in the A-EGS also supported the use of pathogen genomic sequencing in early decision making of suspected pneumonia.

结合革兰氏染色和 16S qPCR 提高了对疑似肺炎的诊断准确性,可成为快速诊断下呼吸道感染的新指标。
导言。由于耐多药生物(MDRO)在医院中的频繁出现以及延误有效治疗的风险,几乎所有疑似肺炎患者都需要对呼吸道分泌物进行培养。培养延误会导致过量处方和使用广谱抗生素。需要改进早期评估疑似医院肺炎的快速诊断方法。验证增强革兰氏染色法(EGS)这一新指标,以提供诊断准确性高的快速诊断检测,并在疑似肺炎患者使用抗生素的临床试验中进行评估。通过 16S 核糖体 DNA 实时聚合酶链式反应(16S qPCR)对以前用培养和革兰氏染色法检测过的 92 份残留下呼吸道样本进行了重新检测,并将其作为与革兰氏染色法相结合的指标进行报告,称为 EGS。对 EGS 的诊断准确性、标准性能测量和与培养的相关性进行了评估。对于培养与 EGS 不一致的样本,则采用 16S 核糖体 DNA 全操作子测序(16S rDNA WOS)来解决测试问题。根据培养结果重新评估修正后的 EGS(A-EGS)。革兰氏染色、16S qPCR、EGS 和 A-EGS 的诊断准确率分别为 77.01%、82.76%、84.04% 和 94.19%。同一平台与培养的相关性分别为 r = 0.67、r = 0.71、r = 0.81 和 r = 0.89。EGS 的阴性预测值 (NPV) 最高,为 93.18 %(81.99 %-97.62 %)。大多数常规实验室都能获得 16S qPCR 结果,结合革兰氏染色法,可改善疑似医院肺炎患者的早期决策。EGS可改善疑似医院肺炎患者的早期决策,可在临床试验中进行评估。A-EGS 中的 16S rDNA WOS 结果也支持在疑似肺炎的早期决策中使用病原体基因组测序。
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