Keith Kardos scite author profile

BackgroundThe diagnosis of periprosthetic joint infection (PJI) remains a serious clinical challenge. There is a pressing need for improved diagnostic testing methods; biomarkers offer one potentially promising approach.Questions/purposesWe evaluated the diagnostic characteristics of 16 promising synovial fluid biomarkers for the diagnosis of PJI.MethodsSynovial fluid was collected from 95 patients meeting the inclusion criteria of this prospective diagnostic study. All patients were being evaluated for a revision hip or knee arthroplasty, including patients with systemic inflammatory disease and those already receiving antibiotic treatment. The Musculoskeletal Infection Society (MSIS) definition was used to classify 29 PJIs and 66 aseptic joints. Synovial fluid samples were tested by immunoassay for 16 biomarkers optimized for use in synovial fluid. Sensitivity, specificity, and receiver operating characteristic curve analysis were performed to assess for diagnostic performance.ResultsFive biomarkers, including human α-defensin 1-3, neutrophil elastase 2, bactericidal/permeability-increasing protein, neutrophil gelatinase-associated lipocalin, and lactoferrin, correctly predicted the MSIS classification of all patients in this study, with 100% sensitivity and specificity for the diagnosis of PJI. An additional eight biomarkers demonstrated excellent diagnostic strength, with an area under the curve of greater than 0.9.ConclusionsSynovial fluid biomarkers exhibit a high accuracy in diagnosing PJI, even when including patients with systemic inflammatory disease and those receiving antibiotic treatment. Considering that these biomarkers match the results of the more complex MSIS definition of PJI, we believe that synovial fluid biomarkers can be a valuable addition to the methods utilized for the diagnosis of infection.Level of EvidenceLevel II, diagnostic study. See Instructions for Authors for a complete description of levels of evidence.

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Detection of Cell and Tissue Surface Antigens Using Up-Converting Phosphors: A New Reporter Technology

Zijlmans

Bonnet

Burton³

et al. 1999

Analytical Biochemistry

328

198

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Infrared up-converting phosphors for bioassays

Corstjens

Zuiderwijk

et al. 2005

IEE Proc., Nanobiotechnol.

152

181

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The development of up-converting phosphor reporter particles has added a powerful tool to modern detection technologies. Carefully constructed phosphor reporters have core-shell structures with surface functional groups suitable for standard bio-conjugations. These reporters are chemically stable, possess the unique property of infrared up-conversion, and are readily detected. In contrast to conventional fluorescent reporters, up-converting phosphor particles do not bleach and allow permanent excitation with simultaneous signal integration. A large anti-Stokes shift (up to 500 nm) separates discrete emission peaks from the infrared excitation source. Along with the unmatched contrast in biological specimens due to the absence of autofluorescence upon infrared excitation, up-converting phosphor technology (UPT) has unique properties for highly-sensitive particle-based assays. The production and characteristics of UPT reporter particles as well as their application in various bioassays is reviewed.

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Detection of Analytes by Immunoassay Using Up-Converting Phosphor Technology

Niedbala

Feindt

Kardos

et al. 2001

Analytical Biochemistry

296

175

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Combined Measurement of Synovial Fluid α-Defensin and C-Reactive Protein Levels: Highly Accurate for Diagnosing Periprosthetic Joint Infection

Deirmengian¹,

Kardos²,

Kyamanywa³

et al. 2014

The Journal of Bone and Joint Surgery

287

162

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Keith Kardos

Diagnosing Periprosthetic Joint Infection: Has the Era of the Biomarker Arrived?

Detection of Cell and Tissue Surface Antigens Using Up-Converting Phosphors: A New Reporter Technology

Infrared up-converting phosphors for bioassays

Detection of Analytes by Immunoassay Using Up-Converting Phosphor Technology

Combined Measurement of Synovial Fluid α-Defensin and C-Reactive Protein Levels: Highly Accurate for Diagnosing Periprosthetic Joint Infection

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