Comparative assessment of lyophilized and wet reagents for the molecular detection of H5N1 high pathogenic avian influenza virus and H9N2 low pathogenic avian influenza virus.

Global surveillance for Avian Influenza Virus (AIV) in birds is essential for assessing public and animal health risks and real-time polymerase chain reaction (RT-qPCR) is among the official methods recommended by the World Organisation for Animal Health (WOAH) to confirm the presence of the virus in laboratory specimens. Yet, in low-resource setting laboratories, the detection of AIV can be hampered by the need to maintain a cold chain for wet reagents. In such cases, alternatives should be ready to maximize surveillance capacities and mining of AIV. Therefore, we compared two lyophilized RT-qPCR reagents (1st - 5 × CAPITAL™ 1-Step qRT-PCR Probe Reagent, lyophilized kit, and 2nd - Qscript lyo 1-step-kit) to the WOAH recommended protocol by Nagy et al., 2020 using QuantiTect Probe RT-PCR-kit as wet reagent. The comparative study panel comprised 102 RNA samples from two AIV subtypes, i.e. H5 and H9 subtypes. Despite that the wet reagent exhibited the lowest limit of detection (LOD) compared to the two lyophilized reagents, the inter-assay agreement was substantial between the 1st lyophilized reagent and the comparator with 95.1% of shared positive results. Cohen's-kappa was fair between the 2nd lyophilized reagent and the comparator with 75.5% of shared positive results. Agreement using the statistical test Bland-Altman was good for samples with Cq-values < 25 for all reagents, revealing discrepancies when the viral load is low. This trend was especially evident while using the 2nd lyophilized reagent. Similar trends were obtained using the same lyophilized reagents but following the protocol by Heine et al., 2015 with AgPath-ID™ One-Step RT-PCR as a comparator, showing that Cq-values increase using lyophilized reagents but correlate strongly with the wet reagent. Further, inter-assay agreement between reagents improved when the protocol from Heine et al., 2015 was applied, suggesting a higher resilience to chemistry changes allowing easier reagents interchangeability.

Disentangling the role of Africa in the global spread of H5 highly pathogenic avian influenza.

The role of Africa in the dynamics of the global spread of a zoonotic and economically-important virus, such as the highly pathogenic avian influenza (HPAI) H5Nx of the Gs/GD lineage, remains unexplored. Here we characterise the spatiotemporal patterns of virus diffusion during three HPAI H5Nx intercontinental epidemic waves and demonstrate that Africa mainly acted as an ecological sink of the HPAI H5Nx viruses. A joint analysis of host dynamics and continuous spatial diffusion indicates that poultry trade as well as wild bird migrations have contributed to the virus spreading into Africa, with West Africa acting as a crucial hotspot for virus introduction and dissemination into the continent. We demonstrate varying paths of avian influenza incursions into Africa as well as virus spread within Africa over time, which reveal that virus expansion is a complex phenomenon, shaped by an intricate interplay between avian host ecology, virus characteristics and environmental variables.