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Multiple Norovirus Outbreaks Due to Shredded, Dried, Laver Seaweed in Japan

Published online by Cambridge University Press:  25 April 2017

Eiji Kusumi
Affiliation:
Navitas Clinic, Tokyo, Japan
Tetsuya Tanimoto*
Affiliation:
Navitas Clinic, Tokyo, Japan
Kazutaka Hosoda
Affiliation:
Navitas Clinic, Tokyo, Japan
Masaharu Tsubokura
Affiliation:
Navitas Clinic, Tokyo, Japan
Tamae Hamaki
Affiliation:
Navitas Clinic, Tokyo, Japan
Kenzo Takahashi
Affiliation:
Navitas Clinic, Tokyo, Japan Teikyo University Graduate School of Public Health, Tokyo, Japan
Masahiro Kami
Affiliation:
Navitas Clinic, Tokyo, Japan Medical Governance Research Institute, Tokyo, Japan
*
Address correspondence to Tetsuya Tanimoto, MD, Navitas Clinic, Shibasaki-cho 3-1-1, Tachikawa City, Tokyo, 190-0031, Japan (tetanimot@yahoo.co.jp).
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Abstract

Type
Letters to the Editor
Copyright
© 2017 by The Society for Healthcare Epidemiology of America. All rights reserved 

To the Editor—Seaweed has been an important traditional Japanese food, and various types of seaweed are widely used in soup stock, seasonings, and sushi dishes. The history of seaweed consumption is long and deeply rooted in Japanese tradition; remains of marine algae were even found in some prehistoric relics in the Japanese archipelago. Interestingly, comparative metagenome analyses of gut microbiota have suggested the presence of a unique microbiome derived from marine bacteria related to seaweed consumption in Japanese individuals.Reference Hehemann, Correc, Barbeyron, Helbert, Czjzek and Michel 1 Among seaweeds, shredded, dried, laver seaweed is commonly used as a condiment; previously, it has rarely been considered to cause food poisoning. Here, we report unprecedented multiple norovirus outbreaks due to shredded, dried, laver seaweed packaged for long-term preservation in Japan.

Beginning on February 17, 2017, dozens of patients, mainly primary-school students, were treated in our clinic in Tachikawa City in Tokyo (Figure 1). A norovirus outbreak was responsible for illness in this unusually large cohort of patients. 2 , 3 Ultimately, this outbreak included ~1,100 students and teachers from 7 primary schools in Tachikawa. All schools receive school lunches from the same centralized school lunch kitchen.

Figure 1 Geographical locations related to the multiple norovirus outbreaks due to shredded, dried, laver seaweed in Japan.

Although neither norovirus nor other pathogens were identified among cooking staff or in the kitchen facilities, the Tokyo metropolitan office identified the strain of norovirus that affected the outbreak patients in several packs of shredded, dried, laver seaweed used as condiments for the school lunches. 2 , 3 The seaweed had been harvested in western Japan, Hyogo Prefecture. After being processed in a facility in Osaka Prefecture, it was shipped nationwide with a December 2017 expiry date.

The company stated that the seaweed was heat treated using a conveyor-type machine for ~7 seconds at 240 °C after boiling for 2 hours at 90 °C. An infected subcontractor had handled the seaweed with bare hands during the subsequent cutting and packaging process in the factory. In addition, 2 similar outbreaks had occurred in January 2017 involving >800 and >100 school children, respectively, in geographically distant cities, Wakayama Prefecture and Kodaira City in Tokyo. In both outbreaks, seaweed from the same company contaminated with the same norovirus strain was provided in the school lunches. 4

Noroviruses are surprisingly resistant to harsh environmental conditions, and they are widely recognized as the leading cause of viral gastroenteritis due to foodborne infection across all age groups.Reference Li, Predmore, Divers and Lou 5 Reference Ahmed, Hall and Robinson 7 The diagnosis of norovirus gastroenteritis cannot be made based on clinical features alone, and the widespread availability of molecular diagnostic tests has resulted in an increased awareness of norovirus-associated acute gastroenteritis worldwide. Because no vaccines or specific antiviral agents are currently available for the prevention or treatment of norovirus infection, rigorous hygiene (eg, hand washing) and heat treatment of foods and water remain the main prevention measures to combat norovirus transmission. However, prevention of norovirus infection is often challenging due to several factors: low infectious dose, prolonged survival on dry inanimate surfaces, resistance to commonly used disinfectants, long infectious period, and prolonged shedding.Reference Li, Predmore, Divers and Lou 5 Reference Ahmed, Hall and Robinson 7

Common foods that can cause norovirus infection include oysters, shellfish, fruits, and vegetables, especially when they are consumed raw without heating. Recently, another norovirus outbreak associated with consumption of green seaweed that was eaten unheated with vinegar seasoning was reported in South Korean schools.Reference Park, Jeong and Lee 8 However, outbreaks due to shredded, dried, laver seaweed processed for long-term preservation are unprecedented. As such, the current events provide several implications for preventing future norovirus outbreaks.

First, even in a packaged food product that has undergone heat-treatment, norovirus contamination can occur if it is handled by an infected person’s bare hands during the manufacturing process. Although no regulations currently govern whether food manufacturers use gloves throughout the entire manufacturing process in Japan, more attention should be given to the risks of contamination. A previous report showed that the contaminated hands of food handlers could transfer infective norovirus even during gloving,Reference Roenqvist, Aho and Mikkelae 9 so effective hand hygiene including handwashing with soap and water should be emphasized by food manufacturers.

In addition, the integrated and streamlined school-lunch provision system is highly vulnerable to norovirus outbreaks. An appropriate decentralized provision system should be explored, weighing the risks and costs prudently. In the modern society where highly connected distribution routes are well established, a single contaminated product can cause multiple outbreaks in geographically disparate places. The responsible local authorities should share infection information promptly and widely across geographic borders.

Finally, a comprehensive surveillance system including dried processed foods should be established to detect the source of such pathogens as early as possible to avoid further spread of the virus. Notably, an Italian study using a polymerase-chain reaction identification technique revealed the presence of norovirus in semidried tomatoes deemed “ready to eat.”Reference Serracca, Rossini and Battistini 10 In the past, packaged dried foods may have been overlooked as the source of pathogens. In norovirus outbreaks, we should remember to consider this surprising source of infection.

ACKNOWLEDGMENTS

Financial support: No financial support was provided relevant to this article.

Potential conflicts of interest: All authors report no conflicts of interest relevant to this article.

References

REFERENCES

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Figure 1 Geographical locations related to the multiple norovirus outbreaks due to shredded, dried, laver seaweed in Japan.