Comparative Analysis of Molecular Detection Algorithms for Enhanced Dengue Surveillance: A Field Case Evaluation
Vidal Felices, Steev Loyola, Crystyan Siles, Roger M. Castillo-Oré, Maria Silva, Julia S. Ampuero

TL;DR
This study evaluates the BioFire Global Fever Panel's accuracy for detecting dengue virus in real-world settings, comparing it with qRT-PCR and finding it reliable but costly.
Contribution
The study provides real-world performance data of the BioFire Global Fever Panel for dengue detection using field surveillance data and advanced statistical modeling.
Findings
The BioFire Global Fever Panel showed high sensitivity (94.5%) and moderate specificity (75.7%) when compared to qRT-PCR.
A sequential testing algorithm combining qRT-PCR and the BioFire Panel achieved near-perfect sensitivity (99.3–100%).
The BioFire Panel offers faster turnaround time but is more expensive than qRT-PCR.
Abstract
The BioFire® Global Fever Panel (GFP; BioFire Diagnostics, Salt Lake City, UT) is an assay designed for detecting multiple pathogens, including dengue virus (DENV; Orthoflavivirus denguei). Although its performance has been primarily assessed using composite reference standards (CRS) or through direct comparisons with other tests, its real-world accuracy remains uncertain. The performance of the GFP in combination with real-time reverse transcriptase polymerase chain reaction (qRT-PCR) testing is evaluated in the present study using dengue surveillance data from 224 individuals with acute fever (≤5 days) in a dengue-endemic area of the Peruvian Amazon. Dengue virus RNA was detected in serum and whole blood using qRT-PCR testing and the GFP, respectively. Two reference standards were developed: one based on CRS and another based on latent class analysis. The best latent class model (LCM)…
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Taxonomy
TopicsMosquito-borne diseases and control · SARS-CoV-2 detection and testing · Viral Infections and Outbreaks Research
