Analytical Methods for Virus Detection in Water and Food

Albert Bosch; Gloria Sánchez; Morteza Abbaszadegan; Annalaura Carducci; Susana Guix; Françoise S. Le Guyader; Rembuluwani Netshikweta; Rosa M. Pintó; Wim H.M. van der Poel; Saskia Rutjes; Daisuke Sano; Maureen B. Taylor; Walda B. van Zyl; David Rodríguez-Lázaro; Katarina Kovač; Jane Sellwood

doi:10.1007/s12161-010-9161-5

Analytical Methods for Virus Detection in Water and Food

Albert Bosch, Gloria Sánchez, Morteza Abbaszadegan, Annalaura Carducci, Susana Guix, Françoise S. Le Guyader, Rembuluwani Netshikweta, Rosa M. Pintó, Wim H.M. van der Poel, Saskia Rutjes, Daisuke Sano, Maureen B. Taylor, Walda B. van Zyl, David Rodríguez-Lázaro, Katarina Kovač, Jane Sellwood

ENG - Civil and Environmental Engineering

Research output: Contribution to journal › Article › peer-review

105 Citations (Scopus)

Abstract

Potential ways to address the issues that relate to the techniques for analyzing food and environmental samples for the presence of enteric viruses are discussed. It is not the authors' remit to produce or recommend standard or reference methods but to address specific issues in the analytical procedures. Foods of primary importance are bivalve molluscs, particularly, oysters, clams, and mussels; salad crops such as lettuce, green onions and other greens; and soft fruits such as raspberries and strawberries. All types of water, not only drinking water but also recreational water (fresh, marine, and swimming pool), river water (irrigation water), raw and treated sewage are potential vehicles for virus transmission. Well over 100 different enteric viruses could be food or water contaminants; however, with few exceptions, most well-characterized foodborne or waterborne viral outbreaks are restricted to hepatitis A virus (HAV) and calicivirus, essentially norovirus (NoV). Target viruses for analytical methods include, in addition to NoV and HAV, hepatitis E virus (HEV), enteroviruses (e.g., poliovirus), adenovirus, rotavirus, astrovirus, and any other relevant virus likely to be transmitted by food or water. A survey of the currently available methods for detection of viruses in food and environmental matrices was conducted, gathering information on protocols for extraction of viruses from various matrices and on the various specific detection techniques for each virus type.

Original language	English
Pages (from-to)	4-12
Number of pages	9
Journal	Food Analytical Methods
Volume	4
Issue number	1
DOIs	https://doi.org/10.1007/s12161-010-9161-5
Publication status	Published - 2011 Mar

Keywords

Concentration
Detection
Enteric viruses
Gastroenteritis
Hepatitis

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/s12161-010-9161-5

Cite this

Bosch, A., Sánchez, G., Abbaszadegan, M., Carducci, A., Guix, S., Le Guyader, F. S., Netshikweta, R., Pintó, R. M., van der Poel, W. H. M., Rutjes, S., Sano, D., Taylor, M. B., van Zyl, W. B., Rodríguez-Lázaro, D., Kovač, K., & Sellwood, J. (2011). Analytical Methods for Virus Detection in Water and Food. Food Analytical Methods, 4(1), 4-12. https://doi.org/10.1007/s12161-010-9161-5

@article{22dd9895b83c486faf794dd6fba0eecf,

title = "Analytical Methods for Virus Detection in Water and Food",

abstract = "Potential ways to address the issues that relate to the techniques for analyzing food and environmental samples for the presence of enteric viruses are discussed. It is not the authors' remit to produce or recommend standard or reference methods but to address specific issues in the analytical procedures. Foods of primary importance are bivalve molluscs, particularly, oysters, clams, and mussels; salad crops such as lettuce, green onions and other greens; and soft fruits such as raspberries and strawberries. All types of water, not only drinking water but also recreational water (fresh, marine, and swimming pool), river water (irrigation water), raw and treated sewage are potential vehicles for virus transmission. Well over 100 different enteric viruses could be food or water contaminants; however, with few exceptions, most well-characterized foodborne or waterborne viral outbreaks are restricted to hepatitis A virus (HAV) and calicivirus, essentially norovirus (NoV). Target viruses for analytical methods include, in addition to NoV and HAV, hepatitis E virus (HEV), enteroviruses (e.g., poliovirus), adenovirus, rotavirus, astrovirus, and any other relevant virus likely to be transmitted by food or water. A survey of the currently available methods for detection of viruses in food and environmental matrices was conducted, gathering information on protocols for extraction of viruses from various matrices and on the various specific detection techniques for each virus type.",

keywords = "Concentration, Detection, Enteric viruses, Gastroenteritis, Hepatitis",

author = "Albert Bosch and Gloria S{\'a}nchez and Morteza Abbaszadegan and Annalaura Carducci and Susana Guix and {Le Guyader}, {Fran{\c c}oise S.} and Rembuluwani Netshikweta and Pint{\'o}, {Rosa M.} and {van der Poel}, {Wim H.M.} and Saskia Rutjes and Daisuke Sano and Taylor, {Maureen B.} and {van Zyl}, {Walda B.} and David Rodr{\'i}guez-L{\'a}zaro and Katarina Kova{\v c} and Jane Sellwood",

note = "Funding Information: Acknowledgments This paper was produced in a cooperative action of the working group on analytical methods of the EU COST action 929 (Environet). G. S{\'a}nchez is the recipient of a JAE doctor grant from the “Consejo Superior de Investigaciones Cient{\'i}ficas” (CSIC). Rembuluwani Netshikweta acknowledges a post-graduate bursary from the Poliomyelitis Research Foundation, South Africa.",

year = "2011",

month = mar,

doi = "10.1007/s12161-010-9161-5",

language = "English",

volume = "4",

pages = "4--12",

journal = "Food Analytical Methods",

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Bosch, A, Sánchez, G, Abbaszadegan, M, Carducci, A, Guix, S, Le Guyader, FS, Netshikweta, R, Pintó, RM, van der Poel, WHM, Rutjes, S, Sano, D, Taylor, MB, van Zyl, WB, Rodríguez-Lázaro, D, Kovač, K & Sellwood, J 2011, 'Analytical Methods for Virus Detection in Water and Food', Food Analytical Methods, vol. 4, no. 1, pp. 4-12. https://doi.org/10.1007/s12161-010-9161-5

TY - JOUR

T1 - Analytical Methods for Virus Detection in Water and Food

AU - Bosch, Albert

AU - Sánchez, Gloria

AU - Abbaszadegan, Morteza

AU - Carducci, Annalaura

AU - Guix, Susana

AU - Le Guyader, Françoise S.

AU - Netshikweta, Rembuluwani

AU - Pintó, Rosa M.

AU - van der Poel, Wim H.M.

AU - Rutjes, Saskia

AU - Sano, Daisuke

AU - Taylor, Maureen B.

AU - van Zyl, Walda B.

AU - Rodríguez-Lázaro, David

AU - Kovač, Katarina

AU - Sellwood, Jane

N1 - Funding Information: Acknowledgments This paper was produced in a cooperative action of the working group on analytical methods of the EU COST action 929 (Environet). G. Sánchez is the recipient of a JAE doctor grant from the “Consejo Superior de Investigaciones Científicas” (CSIC). Rembuluwani Netshikweta acknowledges a post-graduate bursary from the Poliomyelitis Research Foundation, South Africa.

PY - 2011/3

Y1 - 2011/3

N2 - Potential ways to address the issues that relate to the techniques for analyzing food and environmental samples for the presence of enteric viruses are discussed. It is not the authors' remit to produce or recommend standard or reference methods but to address specific issues in the analytical procedures. Foods of primary importance are bivalve molluscs, particularly, oysters, clams, and mussels; salad crops such as lettuce, green onions and other greens; and soft fruits such as raspberries and strawberries. All types of water, not only drinking water but also recreational water (fresh, marine, and swimming pool), river water (irrigation water), raw and treated sewage are potential vehicles for virus transmission. Well over 100 different enteric viruses could be food or water contaminants; however, with few exceptions, most well-characterized foodborne or waterborne viral outbreaks are restricted to hepatitis A virus (HAV) and calicivirus, essentially norovirus (NoV). Target viruses for analytical methods include, in addition to NoV and HAV, hepatitis E virus (HEV), enteroviruses (e.g., poliovirus), adenovirus, rotavirus, astrovirus, and any other relevant virus likely to be transmitted by food or water. A survey of the currently available methods for detection of viruses in food and environmental matrices was conducted, gathering information on protocols for extraction of viruses from various matrices and on the various specific detection techniques for each virus type.

AB - Potential ways to address the issues that relate to the techniques for analyzing food and environmental samples for the presence of enteric viruses are discussed. It is not the authors' remit to produce or recommend standard or reference methods but to address specific issues in the analytical procedures. Foods of primary importance are bivalve molluscs, particularly, oysters, clams, and mussels; salad crops such as lettuce, green onions and other greens; and soft fruits such as raspberries and strawberries. All types of water, not only drinking water but also recreational water (fresh, marine, and swimming pool), river water (irrigation water), raw and treated sewage are potential vehicles for virus transmission. Well over 100 different enteric viruses could be food or water contaminants; however, with few exceptions, most well-characterized foodborne or waterborne viral outbreaks are restricted to hepatitis A virus (HAV) and calicivirus, essentially norovirus (NoV). Target viruses for analytical methods include, in addition to NoV and HAV, hepatitis E virus (HEV), enteroviruses (e.g., poliovirus), adenovirus, rotavirus, astrovirus, and any other relevant virus likely to be transmitted by food or water. A survey of the currently available methods for detection of viruses in food and environmental matrices was conducted, gathering information on protocols for extraction of viruses from various matrices and on the various specific detection techniques for each virus type.

KW - Concentration

KW - Detection

KW - Enteric viruses

KW - Gastroenteritis

KW - Hepatitis

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DO - 10.1007/s12161-010-9161-5

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SP - 4

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JO - Food Analytical Methods

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Analytical Methods for Virus Detection in Water and Food

Abstract

Keywords

UN SDGs

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