Canada Reports First H5N5 Avian Flu In A Mammal; US Reports More H5N1 In Animals

Jun 05, 2023

By Lisa Schnirring

Following sporadic detections of a Eurasian H5N5 avian influenza in Canadian wild birds, officials reported the virus for the first time in mammals—raccoons found dead on Prince Edward Island.

In other developments, the United States reported several more detections involving H5N1 in mammals, and H5N1 outbreaks continue in wild birds and poultry on different continents.

Raccoon deaths follow wild bird detections

The raccoons were found in early April near Charlottetown, the capital of Prince Edward Island, which is located north of Nova Scotia in the Gulf of St. Lawrence, according to a notification from the World Organization for Animal Health (WOAH).

The fully Eurasian H5N5 virus had been found earlier in wild birds on Prince Edward Island and New Brunswick, according to the report.

In an earlier risk assessment on intensifying spread of avian flu outbreaks in wild birds and poultry, WOAH warned that unprecedented genetic variability of avian flu subtypes in birds is creating an epidemiologically challenging landscape. "H5N1, H5N3, H5N4, H5N5, H5N6, or H5N8 are the subtypes currently circulating in poultry and wild bird populations across the world," it said.

More H5N1 in US mammals

In an update, the US Department of Agriculture (USDA) Animal and Plant Health Inspection Service (APHIS) reported 11 more H5N1 detections in mammals, bringing the total since April 2022 to 191. The animals that tested positive are from eight states. One was a black bear from Minnesota's Cass County, located in the north-central part of the state.

Other states reporting cases include New York (red foxes), California (raccoon, mountain lion, Utah (mountain lion), Pennsylvania (red fox), Maine (red fox), Oregon (red fox), and Colorado (skunk).

Health officials continue to monitor H5N1 spillovers from birds to animals, because the currently circulating clade in multiple world regions has a mutation that makes it more easily recognized by mammalian airway cells, including those of humans. These factors make it a potential pandemic threat.

Source : umn.edu
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