Abstract
Co-infections involving Actinobacillus pleuropneumoniae (APP) and influenza A (H1N1) virus present a serious diagnostic challenge in swine respiratory disease, complicating effective outbreak management and control. This study reports the development and validation of a novel duplex TaqMan real-time PCR assay, optimized for the Coyote Flash10 portable automated detection system, for the simultaneous identification and quantification of both pathogens. The assay employs primers and probes specific to the apxIVA virulence gene of APP and the conserved matrix (M) gene of H1N1, with porcine RNase P as an internal control. Validation using recombinant plasmid standards demonstrated a sensitivity of 1 copy/μL for each target, with strong linear correlation (R (2) > 0.99). Calculated amplification efficiencies (APP: 121.6%; H1N1: 118.6%) were marginally above the typical 90-110% range. However, the assay exhibited robust and consistent quantification without evidence of reaction competition. In a simulated clinical matrix, detection limits corresponded to 10,000-fold and 100-fold dilutions for APP and H1N1, respectively. The method showed excellent repeatability (intra-assay CV <3%) and high specificity, with no cross-reactivity against six other common porcine respiratory pathogens. This rapid, closed-tube assay provides a complete result within one hour and offers a practical, point-of-care-compatible solution for on-farm surveillance and the differential diagnosis of complex respiratory co-infections in swine populations. A key limitation of this study is that validation was performed primarily using simulated samples; future validation with authentic clinical samples will further confirm the method's clinical utility.