- Ramchandar, Nanda;
- Coufal, Nicole G;
- Warden, Anna S;
- Briggs, Benjamin;
- Schwarz, Toni;
- Stinnett, Rita;
- Xie, Heng;
- Schlaberg, Robert;
- Foley, Jennifer;
- Clarke, Christina;
- Waldeman, Bryce;
- Enriquez, Claudia;
- Osborne, Stephanie;
- Arrieta, Antonio;
- Salyakina, Daria;
- Janvier, Michelin;
- Sendi, Prithvi;
- Totapally, Balagangadhar R;
- Dimmock, David;
- Farnaes, Lauge
Background
Pediatric central nervous system (CNS) infections are potentially life-threatening and may incur significant morbidity. Identifying a pathogen is important, both in terms of guiding therapeutic management and in characterizing prognosis. Usual care testing by culture and polymerase chain reaction is often unable to identify a pathogen. We examined the systematic application of metagenomic next-generation sequencing (mNGS) for detecting organisms and transcriptomic analysis of cerebrospinal fluid (CSF) in children with central nervous system (CNS) infections.Methods
We conducted a prospective multisite study that aimed to enroll all children with a CSF pleocytosis and suspected CNS infection admitted to 1 of 3 tertiary pediatric hospitals during the study timeframe. After usual care testing had been performed, the remaining CSF was sent for mNGS and transcriptomic analysis.Results
We screened 221 and enrolled 70 subjects over a 12-month recruitment period. A putative organism was isolated from CSF in 25 (35.7%) subjects by any diagnostic modality. Metagenomic next-generation sequencing of the CSF samples identified a pathogen in 20 (28.6%) subjects, which were also all identified by usual care testing. The median time to result was 38 hours.Conclusions
Metagenomic sequencing of CSF has the potential to rapidly identify pathogens in children with CNS infections.