Abstract
BackgroundAetiology detection is crucial in the diagnosis and treatment of ventilator-associated pneumonia (VAP). However, the detection method needs improvement. In this study, we used Nanopore sequencing to build a quick detection protocol and compared the efficiency of different methods for detecting 7 VAP pathogens.MethodsThe endotracheal aspirate (ETA) of 83 patients with suspected VAP from Peking University Third Hospital (PUTH) was collected, saponins were used to deplete host genomes, and PCR- or non-PCR-amplified library construction methods were used and compared. Sequence was performed with MinION equipment and local data analysis methods were used for sequencing and data analysis.ResultsSaponin depletion effectively removed 11 of 12 human genomes, while most pathogenic bacterial genome results showed no significant difference except for S. pneumoniae. Moreover, the average sequence time decreased from 19.6 h to 3.62 h. The non-PCR amplification method and PCR amplification method for library build has a similar average sensitivity (85.8% vs. 86.35%), but the non-PCR amplification method has a better average specificity (100% VS 91.15%), and required less time. The whole method takes 5–6 h from ETA extraction to pathogen classification. After analysing the 7 pathogens enrolled in our study, the average sensitivity of metagenomic sequencing was approximately 2.4 times higher than that of clinical culture (89.15% vs. 37.77%), and the average specificity was 98.8%.ConclusionsUsing saponins to remove the human genome and a non-PCR amplification method to build libraries can be used for the identification of pathogens in the ETA of VAP patients within 6 h by MinION, which provides a new approach for the rapid identification of pathogens in clinical departments.
Highlights
Aetiology detection is crucial in the diagnosis and treatment of ventilator-associated pneumonia (VAP)
Genomic identification of endotracheal aspirate (ETA), which is independent of culture, has become a new method for the rapid identification of pathogens. qRT-PCR and PCR-based FilmArray (R) panel methods can quickly identify pathogens, but these methods can only be used for specific pathogens and are not useful for the detection of unknown pathogens [9,10,11,12,13]
The concentration of the S. pneumoniae strain from American Type Culture Collec‐ tion (ATCC) decreased by approximately 0.31 times after depletion, while the clinical strains decreased by approximately 0.23 times
Summary
Aetiology detection is crucial in the diagnosis and treatment of ventilator-associated pneumonia (VAP). Pathogenic detection plays a crucial role in the process of disease diagnosis and treatment [2,3,4]. Second-generation sequencing technology has the advantages of high throughput and sequencing analysis for unknown pathogens, but it has high requirements for experimental equipment and high costs, so sequencing is difficult to carry out in clinical laboratories [14]. It usually takes 24 h or more for second-generation sequencing from sample extraction to result acquisition
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