Culture and amplification-free nanopore sequencing for rapid detection of pathogens and antimicrobial resistance genes from urine
Permanent lenke
https://hdl.handle.net/10037/35106Dato
2024-09-16Type
Journal articleTidsskriftartikkel
Peer reviewed
Forfatter
Bellankimath, Anurag Basavaraj; Chapagain, Crystal; Branders, Sverre; Ali, Jawad; Wilson, Robert Charles; Johansen, Truls E. Bjerklund; Ahmad, RafiSammendrag
Methods This study first establishes an optical density culture-based method for spiking healthy urine samples with the six most prevalent uropathogens. Urine samples were spiked at clinically significant concentrations of 103 -105 CFU/ml. Three DNA extraction kits (BioStic, PowerFood, and Blood and Tissue) were investigated based on the DNA yield, average processing time, elution volume, and the average cost incurred per extraction. After DNA extraction, the samples were sequenced using MinION and Flongle flow cells.
Results The Blood and Tissue kit outperformed the other kits based on the investigated parameters. Using nanopore sequencing, all the pathogens and corresponding genes were only identified at a spike concentration of 10
5 CFU/ml, achieved after 10 min and 3 hours of sequencing, respectively. However, some pathogens and antibiotic-resistance genes (ARG) could be identified from spikes at 103 colony formation units (CFU/mL). The overall turnaround time was five hours, from sample preparation to sequencing-based identification of pathogen ID and antimicrobial resistance genes.
Conclusion This study demonstrates excellent promise in reducing the time required for informed antibiotic administration from 48 to 72 h to five hours, thereby reducing the number of empirical doses and increasing the chance of saving lives.