PLoS ONE (Jan 2024)

Evaluation of a multiplex-qPCR for paediatric pleural empyema-An observational study in hospitalised children.

  • Jonathan Jacobson,
  • Loraine Fabri,
  • Joshua Osowicki,
  • Shivanthan Shanthikumar,
  • Anna-Maria Costa,
  • Belinda Ortika,
  • Ashleigh Wee-Hee,
  • Michelle Pragassen,
  • Cassandra Gatt,
  • Gena Gonis,
  • Cattram Nguyen,
  • Thomas Rozen,
  • Warwick Teague,
  • Jim Buttery,
  • Vanessa Clifford,
  • Kim Mulholland,
  • Andrew Steer,
  • Sarath Ranganathan,
  • Andrew Daley,
  • Eileen Dunne,
  • Catherine Satzke

DOI
https://doi.org/10.1371/journal.pone.0304861
Journal volume & issue
Vol. 19, no. 6
p. e0304861

Abstract

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Pleural empyema is a serious complication of pneumonia in children. Negative bacterial cultures commonly impede optimal antibiotic therapy. To improve bacterial identification, we developed a molecular assay and evaluated its performance compared with bacterial culture. Our multiplex-quantitative PCR to detect Streptococcus pneumoniae, Streptococcus pyogenes, Staphylococcus aureus and Haemophilus influenzae was assessed using bacterial genomic DNA and laboratory-prepared samples (n = 267). To evaluate clinical performance, we conducted the Molecular Assessment of Thoracic Empyema (MATE) observational study, enrolling children hospitalised with empyema. Pleural fluids were tested by bacterial culture and multiplex-qPCR, and performance determined using a study gold standard. We determined clinical sensitivity and time-to-organism-identification to assess the potential of the multiplex-qPCR to reduce the duration of empiric untargeted antibiotic therapy. Using spiked samples, the multiplex-qPCR demonstrated 213/215 (99.1%) sensitivity and 52/52 (100%) specificity for all organisms. During May 2019-March 2023, 100 children were enrolled in the MATE study; median age was 3.9 years (IQR 2-5.6). A bacterial pathogen was identified in 90/100 (90%) specimens by multiplex-qPCR, and 24/100 (24%) by bacterial culture (P <0.001). Multiplex-qPCR identified a bacterial cause in 68/76 (90%) culture-negative specimens. S. pneumoniae was the most common pathogen, identified in 67/100 (67%) specimens. We estimate our multiplex-qPCR would have reduced the duration of untargeted antibiotic therapy in 61% of cases by a median 20 days (IQR 17.5-23, range 1-55). Multiplex-qPCR significantly increased pathogen detection compared with culture and may allow for reducing the duration of untargeted antibiotic therapy.