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Future potential of metagenomics in microbiology laboratories

Leonard Schuele, Hayley Cassidy, Nilay Peker, John W. A. Rossen, Natacha Couto

2021Expert Review of Molecular Diagnostics33 citationsDOIOpen Access PDF

Abstract

Rapid and sensitive diagnostic strategies are necessary for patient care and public health. Most of the current conventional microbiological assays detect only a restricted panel of pathogens at a time or require a microbe to be successfully cultured from a sample. Clinical metagenomics next-generation sequencing (mNGS) has the potential to unbiasedly detect all pathogens in a sample, increasing the sensitivity for detection and enabling the discovery of unknown infectious agents. High expectations have been built around mNGS; however, this technique is far from widely available. This review highlights the advances and currently available options in terms of costs, turnaround time, sensitivity, specificity, validation, and reproducibility of mNGS as a diagnostic tool in clinical microbiology laboratories. The need for a novel diagnostic tool to increase the sensitivity of microbial diagnostics is clear. mNGS has the potential to revolutionize clinical microbiology. However, its role as a diagnostic tool has yet to be widely established, which is crucial for successfully implementing the technique. A clear definition of diagnostic algorithms that include mNGS is vital to show clinical utility. Similarly to real-time PCR, mNGS will one day become a vital tool in any testing algorithm.

Topics & Concepts

Turnaround timeMetagenomicsClinical microbiologyDiagnostic testComputational biologyMedicineMedical physicsBiologyComputer scienceMicrobiologyVeterinary medicineBiochemistryOperating systemGeneBacterial Identification and Susceptibility TestingGenomics and Phylogenetic StudiesMolecular Biology Techniques and Applications
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