Pasteurization may not clear bird flu virus from heavily infected milk
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 [June 15, 2024]
By Nancy Lapid
(Reuters) - In raw milk samples spiked with high amounts of bird flu
virus, small amounts of infectious virus were still detectable after
treatment with a standard pasteurization method, researchers said on
Friday.
The findings reflect experimental conditions in a laboratory and should
not be used to draw any conclusions about the safety of the U.S. milk
supply, according to the authors of the study from the U.S. government's
National Institute of Allergy and Infectious Diseases (NIAID) Rocky
Mountain Laboratories.
The research was published in the New England Journal of Medicine.
Compared to the spiked raw milk with virus floating freely used in the
study, raw milk from cows infected with H5N1 influenza may have a
different composition or contain virus inside of cells, which may impact
heat effects, the researchers said.
U.S. dairy cows were found to be infected with bird flu in March. The
U.S. Food and Drug Administration surveyed pasteurized retail samples of
milk and estimated that a fifth of the U.S. milk supply contained
strands of virus. The agency has said that pasteurized milk is safe to
drink.
The virus used in the experiments had been isolated from the lungs of a
dead mountain lion, mixed with raw, unpasteurized cow milk samples, and
heat-treated at 63 degrees C (145.4 degrees F) and 72 degrees C (161.6
degrees F) for different periods of time.
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Dairy farmer Brent Pollard's cows stand in their pen at a cattle
farm in Rockford, Illinois, U.S., April 9, 2024. REUTERS/Jim
Vondruska/ File Photo
 After treatment at 72 degrees C for
20 seconds – five seconds longer than the industry standard for
pasteurization at that temperature - very small amounts of
infectious virus were detected in one of three samples, the study
found.
"This finding indicates the potential for a relatively small but
detectable quantity of H5N1 virus to remain infectious in milk after
15 seconds at 72 degrees C if the initial virus levels were
sufficiently high,” the authors note.
Within 2.5 minutes, treatment at 63 degrees C caused a marked
decrease in infectious H5N1 virus levels, indicating that standard
industry pasteurization of 30 minutes at that temperature would
eliminate infectious virus, the researchers said.
The researchers said that their experimental conditions are not
identical to large-scale industrial pasteurization processes for raw
milk and that their findings need to be replicated with direct
measurement of infected milk in commercial pasteurization equipment.
It remains unknown whether ingesting active H5N1 virus in milk could
cause illness in people, the researchers added.
(Reporting by Nancy Lapid; editing by Will Dunham)
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