The research is published in Applied and Environmental Microbiology, a journal of the American Society for Microbiology.
The outbreak involved two individuals who became ill after eating raw oysters at two different restaurants in Baltimore, MD.
According to the Centers for Disease Control and Prevention, two individuals is sufficient to constitute an outbreak since it is likely there were other cases that went unreported. Bolstering the evidence that local oysters were responsible for the outbreak, neither patient had traveled outside of the state in the previous week; nor did either have risk factors for Vibrio infections.
The outbreak offered an unusual opportunity, as disease-causing strains are rarely isolated from food sources. That made it possible for the investigators to identify the culprit strain ofV. parahaemolyticus, called "sequence type 8," with a high degree of certainty, because that was the only strain among 10 strains found in the oysters that was also present in the patients' stools.
The authors then discovered that the culprit strain had previously been found only in Asia. The Asian origin is important in demonstrating that a pathogenic strain may be introduced from afar, and have a public health impact, said coauthor Jessica L. Jones, PhD, Research Microbiologist and Acting Chief, Microbiological Hazards Science Branch, FDA, Gulf Coast Seafood Laboratory, Dauphin Island, Alabama.
The investigators suggested several ways in which an Asian strain could have arrived in the Chesapeake Bay area: via ballast water from ships arriving from Asia, or due to the introduction of exotic oysters or fish carrying the strain.
V. parahaemolyticus is the most important cause of seafood poisoning in the US. Approximately 4,500 cases occur annually in the United States, according to the Center for Disease Control and Prevention. The number of cases has risen in recent years, possibly do to the warming climate.
This research is important in demonstrating the crucial role that techniques including whole genome sequencing, and whole genome multi-locus sequence typing play in enabling a detailed retrospective study of outbreak and non-outbreak strains of the pathogen. Studies such as these allow resesarchers to pinpoint the culprit strain, and its likely origination point. In particular, whole genome multi-locus sequencing was easy to perform, and could easily be scaled up to identify multiple strains of V. parahaemolyticus in future investigations of outbreaks.
Further Reading
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