TY - JOUR T1 - The clinical utility of two high-throughput 16S rRNA gene sequencing workflows for taxonomic assignment of unidentifiable bacterial pathogens in MALDI-TOF MS JF - bioRxiv DO - 10.1101/2021.08.16.456588 SP - 2021.08.16.456588 AU - Hiu-Yin Lao AU - Timothy Ting-Leung Ng AU - Ryan Yik-Lam Wong AU - Celia Sze-Ting Wong AU - Chloe Toi-Mei Chan AU - Denise Sze-Hang Wong AU - Lam-Kwong Lee AU - Stephanie Hoi-Ching Jim AU - Jake Siu-Lun Leung AU - Hazel Wing-Hei Lo AU - Ivan Tak-Fai Wong AU - Miranda Chong-Yee Yau AU - Jimmy Yiu-Wing Lam AU - Alan Ka-Lun Wu AU - Gilman Kit-Hang Siu Y1 - 2021/01/01 UR - http://biorxiv.org/content/early/2021/08/17/2021.08.16.456588.abstract N2 - Bacterial pathogens that cannot be identified using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) are occasionally encountered in clinical laboratories. The 16S rRNA gene is often used for sequence-based analysis to identify these bacterial species. Nevertheless, traditional Sanger sequencing is laborious, time-consuming and low-throughput. Here, we compared two commercially available 16S rRNA gene sequencing tests, which are based on Illumina and Nanopore sequencing technologies, respectively, in their ability to identify the species of 172 clinical isolates that failed to be identified by MALDI-TOF MS. Sequencing data were analyzed by respective built-in analysis programs (MiSeq Reporter Software and Epi2me) and BLAST+ (v2.11.0). Their agreement with Sanger sequencing on species-level identification was determined. Discrepancies were resolved by whole-genome sequencing. The diagnostic accuracy of each workflow was determined using the composite sequencing result as the reference standard. Despite the high base-calling accuracy of Illumina sequencing, we demonstrated that the Nanopore workflow had a comparatively higher taxonomic resolution at the species level. Using built-in analysis algorithms, the concordance of Sanger 16S with the Illumina and Nanopore workflows was 33.14% and 87.79%, respectively. The agreement was 65.70% and 83.14%, respectively, when BLAST+ was used for analysis. Compared with the reference standard, the diagnostic accuracy of optimized Nanopore 16S was 96.36%, which was identical to Sanger 16S and was better than Illumina 16S (71.52%). The turnaround time of the Illumina workflow and the Nanopore workflow was 78h and 8.25h, respectively. The per-sample cost of the Illumina and Nanopore workflows was US$28.5 and US$17.7, respectively. ER -