Establishment of real-time viral pathogen detection method-surface-enhanced Raman scattering system for porcine circovirus type II

Yu-Hsing Lin Yu-Hsing Lin,Tsung-Han Wu Tsung-Han Wu,Ya-Peng Wang Ya-Peng Wang,Shao-Wen Hung Shao-Wen Hung,Pi-Hsin Chen Pi-Hsin Chen,Chia-Ying Lin Chia-Ying Lin,Shao-Qun Lai Shao-Qun Lai,Shih-Yi Guo Shih-Yi Guo,Keng-Chia Hsu Keng-Chia Hsu,Yan-Zhong Wu Yan-Zhong Wu,Yu-Ying Fang Yu-Ying Fang,Ya-Ling Cyue Ya-Ling Cyue

doi:10.30574/gscbps.2024.27.1.0117

Yu-Hsing Lin Yu-Hsing Lin, Tsung-Han Wu Tsung-Han Wu + Show 10 more

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https://doi.org/10.30574/gscbps.2024.27.1.0117

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The transition towards large-scale intensive pig farming methods has resulted in an increase in cases of complex, mixed infections, and secondary infections. Porcine circovirus (PCV), the causative agent of PCV disease (PCVD), is a small nonenveloped DNA virus containing a single-stranded circular genome. Previously, PCV was even considered nonpathogenic to pigs. However, a novel strain of PCV, designated PCV-2, has been associated with various disease syndromes in pigs over the last 5 years. PCV-2 primarily induces post-weaning multisystemic wasting syndrome, characterized by clinical signs such as debility, dyspnea, palpable lymphadenopathy, diarrhea, and pallor or icterus. PCV-2 is now recognized as an important emerging pathogen. Early diagnosis and disease prevention have become crucial for effective pig farm management. However, clinical diagnosis may be complicated by antibiotic treatment and atypical disease symptoms. To ensure accurate pathology diagnosis, it is essential to integrate robust laboratory diagnostics with traditional methods. Surface-enhanced Raman Scattering (SERS) spectroscopy has emerged as a potentially powerful technique for whole-organism fingerprinting, enabling rapid identification of bacteria. Biosensors utilizing SERS offer promising capabilities for sensitive and quick detection of bacterial pathogens, thereby reducing diagnosis time. In this study, our aim was to characterize and evaluate a SERS-based diagnostic system for detecting and identifying PCV-2 present in pooled swine sera and feces. We compared the spectra of PCV-2 recovered from the specimens to those of pure PCV-2 to determine the PCV-2 molecular fingerprint. Our results demonstrated successful detection, identification, and classification of PCV-2 in swine sera and feces using SERS. SERS provided reproducible molecular spectroscopic signatures suitable for analytical applications. This approach presents a new and potent tool for real-time surveillance of animal viral pathogens in clinical settings.

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