Skip to main content

#Inactivation of #Influenza A Viruses (#H1N1, #H5N1) During #Grana-Type Raw #Milk #Cheesemaking: Implications for Foodborne #Transmission Risk

Image
By G.M.

Abstract

Background

The detection of H5N1 highly pathogenic avian influenza virus (HPAIV) in lactating dairy cattle in the United States, with high viral titers in raw milk, has raised concerns about potential zoonotic transmission through the consumption of unpasteurized milk and raw-milk dairy products. While inactivation studies exist for pasteurized milk, data on virus persistence during the manufacture of raw-milk cheeses remain scarce

Aim

To evaluate the survival and inactivation of avian influenza viruses (AIV), including both low pathogenic (LPAIV, H1N1) and highly pathogenic (HPAIV, H5N1) strains, during the production and ripening of Grana-type hard cheeses made from raw bovine milk. 

Methods

Experimental cheesemaking was conducted using raw milk artificially contaminated with A-Duck-Italy-281904-2-06 (H1N1; 10 7,75 EID50 per mL) or A-Duck-Italy-326224-2-22 (H5N1 clade 2.3.4.4b; 10 6,75 EID50 per mL). Cheeses were produced in accordance with Parmigiano Reggiano production standards and ripened for 30 days at 5 or 6 degrees Celsius. Viral presence was assessed in finished cheeses by inoculation on SPF embryonated chicken eggs (ECE), hemagglutination (HA) assay, and monoclonal antibody-based ELISA. 

Results

No infectious virus was detected in any cheese sample produced from contaminated milk following two blind passages in SPF-ECE. Both HA and ELISA tests yielded negative results, indicating complete inactivation of the virus. 

Conclusion

This study demonstrates that the traditional Grana-type cheese production process, including curd cooking, acidification, and ripening, effectively inactivates both LPAIV and HPAIV, even at high contamination levels. These findings support the microbiological safety of hard cheeses made from raw milk with regard to AIV, contributing to risk assessment and food safety policies during avian influenza outbreaks.

Source: BioRxIV, https://www.biorxiv.org/content/10.1101/2025.06.18.660327v1

____

Labels:

Comments

Post a Comment

Popular posts from this blog

#Neuroinvasive #Oropouche virus in a patient with #HIV from extra-Amazonian #Brazil

By G.M.
{Excerpt} A novel reassortant Oropouche virus (OROV) lineage (with medium [M], large [L], and small [S] RNA segments : M1L2S2) has driven Brazil's largest and most geographically widespread OROV epidemic , expanding beyond the endemic Amazon basin to establish local transmission across multiple Brazilian states and other previously unaffected Latin American countries . The rapid spread of this lineage underscores its evolutionary potential and reinforces its significance as a public health threat .1 Similar to chikungunya and Zika viruses, expanding arboviruses can exhibit unexpected clinical and epidemiological shifts , including vertical transmissions , neuroinvasive effects, and potentially fatal outcomes.2–4 Although OROV typically causes self-limited febrile illness, accumulating clinical and experimental evidence suggests neurotropic potential .5 This Correspondence describes the first confirmed case of neuroinvasive OROV infection caused by the emergent M1L2S2 lineage in ext...
Post a Comment
Read more »

Stability of #influenza viruses in the #milk of #cows and #sheep

By G.M.
Abstract In late 2023, H5N1 high pathogenicity avian influenza (HPAIV) started circulating in dairy cattle in the USA . High viral titres were detected in milk from infected cows , raising concerns about onwards human infections . Although pasteurisation was shown to effectively inactivate influenza viruses in milk, unpasteurised milk still poses a risk of infection, both from occupational exposure in dairies and from the consumption of raw milk. We therefore assessed how long influenza viruses could remain infectious for in milk without heat inactivation. We examined the stability of a panel of influenza viruses in milk , including a contemporary H5N1 HPAIV and a variety of other influenza A and D viruses. We incubated viruses in cows' milk under laboratory conditions : at room temperature to simulate exposure in dairies and at 4°C to simulate exposure to refrigerated raw milk. Following an isolated report of H5N1 viral RNA being detected in milk from a sheep in the UK , we also c...
Post a Comment
Read more »

#Evidence of #Viremia in Dairy #Cows Naturally Infected with #Influenza A {#H5N1} Virus, #California, #USA

By G.M.
Abstract We confirmed influenza A virus (IAV) by PCR in serum from 18 cows on 3 affected dairy farms in California, USA . Our findings indicate the presence of viremia and might help explain IAV transmission dynamics and shedding patterns in cows. An understanding of those dynamics could enable development of IAV mitigation strategies. Source: US Centers for Disease Control and Prevention,  https://wwwnc.cdc.gov/eid/article/31/7/25-0134_article ____
Post a Comment
Read more »