Litcius/Paper detail

Plasma Microbial Cell-free DNA Sequencing for the Detection of Kingella kingae Pediatric Spinal Infections

Asim A. Ahmed, Sarah Y. Park, Matthew Smollin, Martin Lindner, Adriana Sarmiento Clemente, Ana Del Valle Penella, Pablo Marcelo Laufer, Carolina Sanchez‐Vegas, Manuel R. Cotilla, Marian E. Melish, Connie Trieu, Nazia Kabani, Joshua Cooper, Audrey R. Lloyd, David W. Kimberlin, John Arnold, Alejandro Jordán-Villegas, L. E. R. Patterson, Catherine Foster, Pablo Yagupsky

2025The Pediatric Infectious Disease Journal8 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Diagnosis of Kingella kingae skeletal system infections is made challenging by the microbe's fastidious nature. Detection and quantification of circulating microbial cell-free DNA (mcfDNA) in plasma by the Karius Test, a commercial metagenomic sequencing test, may offer promise in diagnosing pediatric spinal infections caused by difficult-to-culture organisms such as K. kingae . METHODS: Plasma mcfDNA sequencing detections of K. kingae from April 2018 to December 2020 were reviewed to identify pediatric (age <18 years) patients. Medical charts of those with spinal infections were reviewed, and mcfDNA sequencing diagnostic performance was compared with usual care tests (ie, cultures, polymerase chain reaction). RESULTS: Ten children with K. kingae spinal infections were identified across 7 institutions. The median age was 16.5 months (range 11-23 months). All case-patients had vertebral osteomyelitis with 9 having spondylodiscitis. Compared with usual care tests, mcfDNA sequencing was significantly more sensitive (McNemar's test 6.25, 2-tailed P = 0.0133). It was the only method of microbiological diagnosis in 9 patients, providing results in a median of 2.5 days (range 2-5 days) from sample collection. K. kingae mcfDNA was detected despite antibiotic pretreatment in 5/5 case-patients. Pathogen-tailoring of antimicrobial coverage was undertaken in 9 children. CONCLUSION: Plasma mcfDNA sequencing offers a rapid, noninvasive method of detecting K. kingae causing pediatric spinal infections. This culture-independent approach may facilitate diagnosis, despite antibiotic pretreatment and subsequently targeted therapy and potentially obviate the need for biopsy.

Topics & Concepts

Kingella kingaeFastidious organismVertebral osteomyelitisMedicineOsteomyelitisSpondylodiscitisInternal medicineMicrobiologySurgeryBiologyBacteriaSeptic arthritisGeneticsArthritisOrthopedic Infections and TreatmentsInfectious Diseases and TuberculosisBone fractures and treatments
Plasma Microbial Cell-free DNA Sequencing for the Detection of Kingella kingae Pediatric Spinal Infections | Litcius