Litcius/Paper detail

High‐Throughput Metagenomics for Identification of Pathogens in the Clinical Settings

Na Li, Qingqing Cai, Qing Miao, Zeshi Song, Yuan Fang, Bijie Hu

2020Small Methods255 citationsDOIOpen Access PDF

Abstract

The application of sequencing technology is shifting from research to clinical laboratories owing to rapid technological developments and substantially reduced costs. However, although thousands of microorganisms are known to infect humans, identification of the etiological agents for many diseases remains challenging as only a small proportion of pathogens are identifiable by the current diagnostic methods. These challenges are compounded by the emergence of new pathogens. Hence, metagenomic next-generation sequencing (mNGS), an agnostic, unbiased, and comprehensive method for detection, and taxonomic characterization of microorganisms, has become an attractive strategy. Although many studies, and cases reports, have confirmed the success of mNGS in improving the diagnosis, treatment, and tracking of infectious diseases, several hurdles must still be overcome. It is, therefore, imperative that practitioners and clinicians understand both the benefits and limitations of mNGS when applying it to clinical practice. Interestingly, the emerging third-generation sequencing technologies may partially offset the disadvantages of mNGS. In this review, mainly: a) the history of sequencing technology; b) various NGS technologies, common platforms, and workflows for clinical applications; c) the application of NGS in pathogen identification; d) the global expert consensus on NGS-related methods in clinical applications; and e) challenges associated with diagnostic metagenomics are described.

Topics & Concepts

MetagenomicsIdentification (biology)WorkflowDNA sequencingComputational biologyData scienceClinical microbiologyBiologyComputer scienceBiotechnologyRisk analysis (engineering)MedicineGeneticsEcologyGeneDatabaseDNAMicrobiologyGenomics and Phylogenetic StudiesBacterial Identification and Susceptibility TestingPlant Pathogenic Bacteria Studies
High‐Throughput Metagenomics for Identification of Pathogens in the Clinical Settings | Litcius