Mistaken identity cleared up of foodborne pathogen causing severe symptoms in children

The prevalence of pathogenic E. coli has meant the frequent misidentification of a similar bacterium of the Escherichia genus. E. albertii is an emerging zoonotic foodborne pathogen, first isolated in Bangladesh in 1991. Large-scale outbreaks of food poisoning caused by E. albertii have since been reported especially in Japan, causing severe symptoms in both children […]

May 23, 2024 - 04:00
Mistaken identity cleared up of foodborne pathogen causing severe symptoms in children

The prevalence of pathogenic E. coli has meant the frequent misidentification of a similar bacterium of the Escherichia genus. E. albertii is an emerging zoonotic foodborne pathogen, first isolated in Bangladesh in 1991. Large-scale outbreaks of food poisoning caused by E. albertii have since been reported especially in Japan, causing severe symptoms in both children and adults.

More accurate detection method

Credit: Osaka Metropolitan University

The prevalence of pathogenic E. coli has meant the frequent misidentification of a similar bacterium of the Escherichia genus. E. albertii is an emerging zoonotic foodborne pathogen, first isolated in Bangladesh in 1991. Large-scale outbreaks of food poisoning caused by E. albertii have since been reported especially in Japan, causing severe symptoms in both children and adults.

In the hopes of establishing a diagnostic method, a joint research group led by Professor Shinji Yamasaki and Dr. Sharda Prasad Awasthi, a specially appointed associate professor, from the Graduate School of Veterinary Science at Osaka Metropolitan University, have developed a way to detect E. albertii more accurately using a quantitative real-time PCR method.

Specimen examination using this technique showed that E. albertii survived in the human intestinal tract for approximately four weeks and continued to be found in feces. The identical genotype of the bacterial DNA of E. albertii that infected siblings also suggested that intrafamilial transmission may have occurred.

“These results and a novel real-time PCR developed in this study are expected to contribute not only to the selection of appropriate treatment for E. albertii gastroenteritis, but also to the elucidation of the source and route of infection,” Professor Yamasaki declared.

The findings were published in Heliyon.

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About OMU 

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