RT Journal Article T1 A Novel Filarial‐Multiplexed Probe‐Quantitative PCR for the Advance in the Diagnosis of Multiple Infections With Human Filariasis A1 Capote‐Morales, Raquel A1 Benito, Agustín A1 Berzosa, Pedro A1 la Fuente, Irene Molina‐de A1 Akindele, Akeem Abiodun A1 Cruces, Raquel A1 Cerrada‐Gálvez, Laura A1 González, Vicenta A1 García, Luz A1 Ta‐Tang, Thuy‐Huong AB The routine diagnostic method used for clinical samples suspected of filarial infection in our laboratory is the Filaria-real time-PCR (F-RT-PCR). The drawback of this method is the need for melting temperature analysis and PCR products' electrophoresis to identify the filarial species. Therefore, the aim of this study was to design a quantitative real-time PCR (qPCR) assay using filarial-specific hydrolysis probes, targeting 18S rRNA and ITS1 genes, allowing the simultaneous diagnosis of loiasis, mansonellosis and other human filariasis without the need of electrophoresis or melting temperature analysis. To achieve this objective, three filarial probes (Fil-Hum-GT1, Loa-Hum-GT2 and Mp-Hum-GT2) were designed, optimised and validated for integration into a single qPCR assay, named filarial-multiplexed probe-quantitative PCR (F-mp-qPCR). For the optimisation and validation of the F-mp-qPCR method, a total of 304 clinical samples as dried blood spot were used with their corresponding thick blood smears stained by Giemsa 3%. The detection limit of the Fil-Hum-GT1, Loa-Hum-GT2 and Mp-Hum-GT2 probes was 0.05, 0.5 and 3 mF/mL, respectively. The most sensitive and specific probe was the general filarial probe Fil-Hum-GT1, with a sensitivity of 92.0% to detect L. loa, 88.6% to detect M. perstans and 85.7% to detect mixed infections, with 100% specificity. Agreement with microscopy was excellent for the Fil-Hum-GT1 probe. In contrast, the Mp-Hum-GT2 probe showed the lowest performance, with a sensitivity of 81.8% to detect M. perstans, decreasing to 42.9% for mixed infections. Although the developed method did not prove to be significantly more sensitive than microscopy, this novel method is faster and easier to perform compared to microscopy and is very useful for screening large population groups in a context of medium-to-low human filariasis transmission. PB Wiley SN 1360-2276 YR 2025 FD 2025-08-07 LK https://hdl.handle.net/20.500.14352/124670 UL https://hdl.handle.net/20.500.14352/124670 LA eng NO Capote-Morales, R., Benito, A., Berzosa, P., Molina-de la Fuente, I., Akindele, A. A., Cruces, R., Cerrada-Glávez, L., González, V., García, L., & Ta-Tang, T.-H. (2025). A Novel Filarial-Multiplexed Probe-Quantitative PCR for the Advance in the Diagnosis of Multiple Infections With Human Filariasis. Tropical Medicine & International Health, 30(10), 1097-1106. NO Funding: "The performance of F-mp-qPCR in the Laboratory for Scientific-Technical Cooperation in Tropical Diseases of the National Centre of Tropical Medicine was done thanks to the financial support of the Biomedical Research Networking Centre of Infectious Diseases (CIBERINFEC CB21/13/00120), Instituto de Salud Carlos III..."Acknowledgements: "My sincere gratitude to all those who have carried out the field activities and have allowed the creation of this enormous laboratory's collection of DBS and blood smears. Thanks to this previous work and its well-preserved status, the development of this molecular technique has been possible."Patente: "The hydrolysis probes Fil-Hum-GT1, Loa-Hum-GT2, and Mp-Hum-GT2 used for the diagnosis of loiasis, mansonellosis and other human filariasis have the Spanish National Patent number P202330158 and the International Patent number PCTES2024070106.". NO Biomedical Research Networking Centre of Infectious Diseases (CIBERINFEC) NO Instituto de Salud Carlos III DS Docta Complutense RD 20 oct 2025