A little over a week ago the EFSA published their quarterly avian flu review - which in addition to documenting the last 3 months of Europe's extraordinary 2025-2026 avian flu season - announced the surprise finding of an older, Middle-Eastern/African clade of LPAI H9N2 circulating in Hungary's poultry.
Despite being clearly zoonotic - LPAI H9N2 is considered a `non-reportable' disease in poultry or wild birds by WOAH (see Terrestrial Animal Code). As a result, there are huge gaps in surveillance and reporting around the world.
At the same time we've seen a growing number of studies - mostly out of Asia - warning of its growing adaptation to mammalian hosts (see EM&I: Enhanced Replication of a Contemporary Avian Influenza A H9N2 Virus in Human Respiratory Organoids).
Our own CDC lists two lineages (A(H9N2) G1 and A(H9N2) Y280) as having at least some pandemic potential, and several candidate vaccines have been developed.
While there is still much to be learned about them, over the past couple of months we've seen 2 new lineages of LPAI H9N2 described in the literature.
EM&I: A new clade of H9N2 avian influenza virus circulating in Laos
Preprint: Outbreak of H9N2 Avian Influenza Viruses in Lesser Rhea in Peru, June-July 2025
Where H9N2 is endemic (Asia, Africa, the Middle East) attempts at controlling the virus with vaccines have been largely unsuccessful (see J. Virus Erad.: Ineffective Control Of LPAI H9N2 By Inactivated Poultry Vaccines - China).
Reports of LPAI H9N2 in European poultry have been rare, but in this latest report the EFSA describes an outbreak in 7 premises in Hungary.While most human cases have been reported out of China (see below), this year Europe saw its first (imported) human infection with H9N2 in Italy (see WHO DON: Avian Influenza A(H9N2) - Italy (Ex Senegal)).
Apart from these HPAI A(H5N1) outbreaks, Hungary reported the detection of A(H9N2) clade G5.5 virus back in April in 7 establishments keeping chickens (broilers), all of which were located in a single geographical area within one settlement. Increased mortality in one establishment initially raised suspicions of HPAI, however, the birds tested negative for HPAI A(H5) and A(H7) viruses.
Tests for infectious bronchitis virus returned positive and pathological examinations revealed tracheitis, presenting with a clinical picture typical of a co-infection (Belkasmi et al., 2020; Regragui et al., 2025). This prompted testing for A(H9N2) virus.
As this specific clade had originally been restricted to countries outside the EU, such as those in the Middle East (Fusaro et al., 2024), poultry workers were interviewed about their travel history; however, no plausible link could be established.
The source of introduction therefore remained unknown at the time of reporting. All affected establishments were stamped out, cleaned, and disinfected. After 2-3 weeks following repopulation, the birds will be tested again for A(H9N2) virus. Waterfowl flocks present in the affected county were tested for A(H9) virus prior to movement, but all these tests returned negative.
The report goes on to describe the LPAI H9N2 virus:
Low pathogenic avian influenza A(H9N2) clade G5.5 (CDC, online-a) was identified in two genetically characterised samples collected from commercial poultry establishments in Hungary in April 2026. This clade is circulating in domestic birds in some countries in Africa, the Middle East and West Asia, and has previously never been detected in birds in the EU/EEA.
Avian influenza A(H9N2) viruses belonging to clade G5.5 have also been reported in sporadic human cases, including Oman and Senegal in 2019, Ghana in 2024, and Italy in March 2026 in a patient who returned from West Africa (Pariani et al., 2026).
The viruses that are most closely related to the Hungarian strains are A(H9N2) viruses of the same clade that had been circulating in the Middle East one or two decades ago. The long branches and time separating the Hungarian viruses from their progenitors suggest a significant gap of data, making it impossible to determine their origin.
Similarly to the majority of the A(H9N2) viruses of lineages G and B, they possess the HA-Q226L mutation (H3 numbering), which is associated with preferential binding to human-like α2-6-linked sialic acid (SA α2-6) receptors.
The only recent reports of Clade G5.5 appear to have come from Oman, Senegal, and Ghana, although we are hindered by a general lack of testing, surveillance and reporting.
How it ended up in Hungary - some 4,000km from these locations - is a genuine mystery. While migratory birds, imported exotic birds, or even human carriage are possible, there is scant evidence to support any conclusion.
LPAI H9N2 may not be our biggest pandemic threat, but it is far from benign. The fact that H9 has successfully flown under the radar - only to turn up unexpectedly in central Europe - suggests we may want to consider expanding our testing and reporting systems beyond H5 and H7 viruses.
