A Review of Known and Hypothetical Transmission Routes for Noroviruses

Mathijs, Élisabeth; Stals, Ambroos; Baert, Leen; Botteldoorn, Nadine; Denayer, Sarah; Mauroy, Axel; Scipioni, Alexandra; Daube, Georges; Dierick, Katelijne; Herman, Lieve; Coillie, Els Van; Uyttendaele, Mieke; Thiry, Étienne

doi:10.1007/s12560-012-9091-z

Cited by 89 publications

(67 citation statements)

References 206 publications

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“…Swine illnesses are associated with porcine Sapovirus while the influence of Norovirus contagions in swine is unknown [3]. Some strains of Caliciviruses (Norovirus and Sapovirus) have the potential for zoonotic transmission since they are hereditarily related to humans [13] and studies have shown that some domestic pigs serve as the reservoir of these viruses [14].…”

Section: Introductionmentioning

confidence: 99%

Occurrence of Norovirus in pig faecal samples in the Eastern Cape, South Africa

Taku

Iweriebor

Nwodo

et al. 2017

APJTD

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Section: Introductionmentioning

confidence: 99%

Occurrence of Norovirus in pig faecal samples in the Eastern Cape, South Africa

Taku

Iweriebor

Nwodo

et al. 2017

APJTD

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“…The primary transmission route is the faecal-oral one, either via person-to-person contact or by consumption of contaminated food or water (Lopman et al 2003;Siebenga et al 2007;Kroneman et al 2008;Scallan et al 2011;Mathijs et al 2012). Noroviruses are very resistant and can persist for several days in the environment (D'Souza et al 2006).…”

Section: Introductionmentioning

confidence: 99%

“…Noroviruses are very resistant and can persist for several days in the environment (D'Souza et al 2006). Due to this high persistence on various inanimate surfaces and on food, coupled with the prolonged shedding of high amounts of virus in faeces and the low infectious dose, person-to-person transmission is very efficient and noroviruses constitute a serious public health issue (Mathijs et al 2012). Alternatively, food can be contaminated with HuNoV either at the source in the growing or harvesting areas by contaminated irrigation water or during handling or preparation of meals (Tuan Zainazor et al 2010;Mathijs et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Comparative Virucidal Efficacy of Seven Disinfectants Against Murine Norovirus and Feline Calicivirus, Surrogates of Human Norovirus

et al. 2015

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“…Produce safety is of great concern as fresh produce serves as the major vehicle for huNoV transmission (8,9). Produce that is consumed raw or with little or no processing may become contaminated with huNoV during postharvest handling (e.g., irrigation water and amendments) and processing (e.g., washing and packing) and also through contact with infected individuals who may handle the produce or seeds (10)(11)(12). Previously, huNoV has been detected in surface water and groundwater with various frequencies (13,14).…”

mentioning

confidence: 99%

“…Previously, huNoV has been detected in surface water and groundwater with various frequencies (13,14). It is likely that viruses can be spread by water, and internalization of huNoV through root uptake of produce via polluted irrigation water is one of the potential routes for plant contamination (12,14). However, without an appropriate cell culture model, the behavior of huNoV is still not well understood.…”

mentioning

confidence: 99%

Survival and Transfer of Murine Norovirus within a Hydroponic System during Kale and Mustard Microgreen Harvesting

Wang

Kniel

2016

Appl Environ Microbiol

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Hydroponically grown microgreens are gaining in popularity, but there is a lack of information pertaining to their microbiological safety. The potential risks associated with virus contamination of crops within a hydroponic system have not been studied to date. Here a human norovirus (huNoV) surrogate (murine norovirus [MNV]) was evaluated for its ability to become internalized from roots to edible tissues of microgreens. Subsequently, virus survival in recirculated water without adequate disinfection was assessed. Kale and mustard seeds were grown on hydroponic pads (for 7 days with harvest at days 8 to 12), edible tissues (10 g) were cut 1 cm above the pads, and corresponding pieces (4 cm by 4 cm) of pads containing only roots were collected separately. Samples were collected from a newly contaminated system (recirculated water inoculated with ϳ3 log PFU/ml MNV on day 8) and from a previously contaminated system. (A contaminated system without adequate disinfection or further inoculation was used for production of another set of microgreens.) Viral titers and RNA copies were quantified by plaque assay and real-time reverse transcription (RT)-PCR. The behaviors of MNV in kale and mustard microgreens were similar (P > 0.05). MNV was detected in edible tissues and roots after 2 h postinoculation, and the levels were generally stable during the first 12 h. Relatively low levels (ϳ2.5 to ϳ1.5 log PFU/sample of both edible tissues and roots) of infectious viruses were found with a decreasing trend over time from harvest days 8 to 12. However, the levels of viral RNA present were higher and consistently stable (ϳ4.0 to ϳ5.5 log copies/sample). Recirculated water maintained relatively high levels of infectious MNV over the period of harvest, from 3.54 to 2.73 log PFU/ml. Importantly, cross-contamination occurred easily; MNV remained infectious in previously contaminated hydroponic systems for up to 12 days (2.26 to 1.00 PFU/ml), and MNV was detected in both edible tissues and roots. Here we see that viruses can be recirculated in water, even after an initial contamination event is removed, taken up through the roots of microgreens, and transferred to edible tissues. The ease of product contamination shown here reinforces the need for proper sanitation. Hydroponics is gaining in popularity, with consistent growth across the United States (1). Specifically growing microgreens hydroponically is a new trend in the food industry (1). Microgreens have been defined as salad crop shoots harvested for consumption within 10 to 20 days of seedling emergence (2). Microgreens are considered a gourmet food to add taste, color, and texture to dishes; they mainly appear in fine and upscale restaurants and have been gaining attention and popularity during the past few years due to the fresh appearance and health benefits (3, 4). Both microgreens and sprouts are usually grown within indoor facilities under controlled environmental conditions to minimize potential contamination of foodborne pathogens. However, microgreens are different ...

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A Review of Known and Hypothetical Transmission Routes for Noroviruses

Cited by 89 publications

References 206 publications

Occurrence of Norovirus in pig faecal samples in the Eastern Cape, South Africa

Occurrence of Norovirus in pig faecal samples in the Eastern Cape, South Africa

Comparative Virucidal Efficacy of Seven Disinfectants Against Murine Norovirus and Feline Calicivirus, Surrogates of Human Norovirus

Survival and Transfer of Murine Norovirus within a Hydroponic System during Kale and Mustard Microgreen Harvesting

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