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322. Evaluation of the BioFireĀ® Bone and Joint Infection (BJI) Panel for the Detection of Microorganisms and Antimicrobial Resistance Genes in Synovial Fluid Specimens

Authors :
Corrin Graue
Bryan H Schmitt
Amy Waggoner
Frederic Laurent
Lelia Abad
Thomas Bauer
Irving Mazariegos
Joan-Miquel Balada-Llasat
Jarid Horn
Donna Wolk
Alexa Jefferis
Mirjam Hermans
Irma Verhoofstad
Susan Butler-Wu
Minette Umali-Wilcox
Caitlin N Murphy
Barbara J Cabrera
Jaime Esteban
Alicia Macias-Valcayo
David Craft
Benjamin von Bredow
Amy Leber
Kathy Everhart
Jennifer Dien Bard
Javier Mestas
Judy Daly
Rebecca Barr
Bart Kensinger
Benedicte Pons
Corinne Jay
Source :
Open Forum Infectious Diseases
Publication Year :
2020
Publisher :
Oxford University Press (OUP), 2020.

Abstract

Background Bone and Joint Infections (BJIs) present with non-specific symptoms that may include pain, swelling, and fever and are associated with high morbidity and significant risk of mortality. BJIs can be caused by a variety of bacteria and fungi, including anaerobes and microorganisms that can be challenging to culture or identify by traditional microbiological methods. Clinicians primarily rely on culture to identify the pathogen(s) responsible for infection. The BioFire® Bone and Joint Infection (BJI) Panel (BioFire Diagnostics, Salt Lake City, UT) is designed to detect 15 gram-positive bacteria (including seven anaerobes), 14 gram-negative bacteria (including one anaerobe), two yeast, and eight antimicrobial resistance (AMR) genes from synovial fluid specimens in about an hour. The objective of this study was to evaluate the performance of an Investigational Use Only (IUO) version of the BioFire BJI Panel compared to various reference methods. Methods Remnant synovial fluid specimens, which were collected for routine clinical care at 13 study sites in the US and Europe, underwent testing using an IUO version of the BioFire BJI Panel. Performance of this test was determined by comparison to Standard of Care (SoC) consisting of bacterial culture performed at each study site according to their routine procedures. Results A total of 1544 synovial fluid specimens were collected and tested with the BioFire BJI Panel. The majority of specimens were from knee joints (77.9%) and arthrocentesis (79.4%) was the most common collection method. Compared to SoC culture, overall sensitivity was 90.2% and specificity was 99.8%. The BioFire BJI Panel yielded a total of 268 Detected results, whereas SoC yielded a total of 215 positive results for on-panel analytes. Conclusion The BioFire BJI Panel is a sensitive, specific, and robust test for rapid detection of a wide range of analytes in synovial fluid specimens. The number of microorganisms and resistance genes included in the BioFire BJI Panel, together with a reduced time-to-result and increased diagnostic yield compared to culture, is expected to aid in the timely diagnosis and appropriate management of BJIs. Disclosures Benjamin von Bredow, PhD, BioFire (Grant/Research Support) Jennifer Dien Bard, PhD, BioFire Diagnostic (Consultant, Scientific Research Study Investigator) Bart Kensinger, PhD, BioFire Diagnostics (Employee) Benedicte Pons, PhD, bioMerieux SA (Employee) Corinne Jay, PhD, bioMerieux SA (Employee)

Details

ISSN :
23288957
Volume :
7
Database :
OpenAIRE
Journal :
Open Forum Infectious Diseases
Accession number :
edsair.doi.dedup.....f3d89780bfa42dd09f3c6193bf49921b
Full Text :
https://doi.org/10.1093/ofid/ofaa439.518