This is a significant step in the fight against this often fatal strain of avian influenza which is widespread in the poultry populations of South East Asia, particularly Indonesia and Vietnam, researchers said.
"Avian flu is on the top list of notifiable diseases of the World Organisation for Animal Health (OIE) because of its high economic cost and risk to human health," said project leader Dr Farhid Hemmatzadeh, Senior Lecturer in Virology in the School of Animal and Veterinary Sciences at the Roseworthy campus at the University of Adelaide.
"But the inability of distinguishing between vaccinated and naturally infected birds has been a major challenge.
"It has prevented tracking the virus which can still circulate in vaccinated birds and may mutate to new strains under what's called vaccination pressure.
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"These birds that have been vaccinated but still have live naturally infected H5N1 virus in their systems are the main source of emerging strains of the virus - and these new strains may be even more dangerous to birds or humans.
"With this new, more sensitive, test we can identify these vaccinated birds with live virus and prevent the escape of any mutant strains. This is essential if we want to prevent pandemics developing from this virus and eventually eradicate this disease," said Hemmatzadeh.
The antibodies prevent the replication of the virus in the bird, but in some cases the virus mutates in a vaccinated bird and can still replicate even with the existing high level of antibodies to the vaccines.
The new DIVA test (differentiation of infected from vaccinated animals) uses a particular viral protein called Matrix protein 2 that reacts differently with blood serum from vaccinated or infected animals.
The research has been published in the journal PLOS ONE.