Diagnosis of bacteraemia in neonatal foals using
16S rRNA
high‐throughput sequencing
Flavie Payette, Alicia E. Long, Weiming Hu, Kyle Bittinger, Ahmed M. Moustafa, Darko Stefanovski, Michelle Abraham, Maia R. Aitken Abstract
Background
Sepsis is an important cause of morbidity and mortality in foals. Early diagnosis can improve outcome but is complicated by non‐specific clinical signs and delayed confirmation of infection via blood culture. Molecular assays represent a rapid and more sensitive alternative.
Objectives
To evaluate and compare bacterial load and composition in blood and blood culture media (BCM) of sick and healthy foals using molecular assays and to compare results with traditional bacterial culture.
Study Design
Cross‐sectional observational clinical study.
Methods
Thirteen septic foals, 10 sick non‐septic and 8 healthy foals were included. Bacterial load and composition from whole blood (WB), pre‐enriched BCM and contamination controls were analysed by quantitative PCR and sequencing of the universal bacterial 16S rRNA marker gene.
Results
WB sequencing yielded more positive samples (25/31) than BCM (6/62; p < 0.01). Positive blood culture and WB sequencing were comparable in only 3/12 foals. Sequencing samples were at high potential for contamination, with most samples having high relative abundances (RAs) of Paucibacter and Ralstonia . High RAs of Actinobacillus and Staphylococcus in septic foals may, however, suggest true pathogen detection. No significant differences in bacterial RAs, 16S rRNA gene load (qPCR), or other sequencing‐based metrics were found between foal groups and between WB and contamination controls.
Main Limitations
Inherent inaccuracies of classification schemes for septic and sick non‐septic foals and the impact of contamination when sequencing low biomass samples.
Conclusions
High‐throughput sequencing represents a possible avenue for the diagnosis of bacteraemia in foals but has high potential for environmental and extraction‐related contamination and cannot replace blood culture at this time. Further research to optimise detection yield and sensitivity on WB samples is warranted.