AIMS: The aim of this study was to determine if domestic cooking practices can reduce concentrations of norovirus (NoV) and F-specific RNA (FRNA) bacteriophage in experimentally contaminated mussels. METHODS AND RESULTS: Mussels (n = 600) contaminated with NoV and FRNA bacteriophage underwent four different cooking experiments performed in triplicate at ~70°C and >90°C. Concentrations of infectious FRNA bacteriophage (using a plaque assay) were compared with concentrations of FRNA bacteriophage and NoV determined using a standardised RT-qPCR. Initial concentrations of infectious FRNA bacteriophage (7·05 log10 PFU g(-1) ) in mussels were not significantly reduced in simmering water (~70°C); however, cooking at higher temperatures (>90°C) reduced infectious FRNA bacteriophage to undetected levels within 3 min. Further investigation determined the time required for a 1-log reduction of infectious FRNA bacteriophage at 90°C to be 42 s therefore a >3-log reduction in infectious virus can be obtained by heating mussel digestive tissue to 90°C for 126 s. CONCLUSIONS: Domestic cooking practices based on shell opening alone do not inactivate infectious virus in mussels, however, cooking mussels at high temperatures is effective to reduce infectious virus concentrations and the risk of illness in consumers. SIGNIFICANCE AND IMPACT OF THE STUDY: The data will contribute towards evidence-based cooking recommendations for shellfish to provide a safe product for human consumption.
AIMS: The aim of this study was to determine if domestic cooking practices can reduce concentrations of norovirus (NoV) and F-specific RNA (FRNA) bacteriophage in experimentally contaminated mussels. METHODS AND RESULTS: Mussels (n = 600) contaminated with NoV and FRNA bacteriophage underwent four different cooking experiments performed in triplicate at ~70°C and >90°C. Concentrations of infectious FRNA bacteriophage (using a plaque assay) were compared with concentrations of FRNA bacteriophage and NoV determined using a standardised RT-qPCR. Initial concentrations of infectious FRNA bacteriophage (7·05 log10 PFU g(-1) ) in mussels were not significantly reduced in simmering water (~70°C); however, cooking at higher temperatures (>90°C) reduced infectious FRNA bacteriophage to undetected levels within 3 min. Further investigation determined the time required for a 1-log reduction of infectious FRNA bacteriophage at 90°C to be 42 s therefore a >3-log reduction in infectious virus can be obtained by heating mussel digestive tissue to 90°C for 126 s. CONCLUSIONS: Domestic cooking practices based on shell opening alone do not inactivate infectious virus in mussels, however, cooking mussels at high temperatures is effective to reduce infectious virus concentrations and the risk of illness in consumers. SIGNIFICANCE AND IMPACT OF THE STUDY: The data will contribute towards evidence-based cooking recommendations for shellfish to provide a safe product for human consumption.
Authors: Najoua Drouaz; Julien Schaeffer; Tibor Farkas; Jacques Le Pendu; Françoise S Le Guyader Journal: Appl Environ Microbiol Date: 2015-05-29 Impact factor: 4.792
Authors: Francis Hassard; Jasmine H Sharp; Helen Taft; Lewis LeVay; John P Harris; James E McDonald; Karen Tuson; James Wilson; David L Jones; Shelagh K Malham Journal: Food Environ Virol Date: 2017-02-07 Impact factor: 2.778
Authors: Kata Farkas; Francis Hassard; James E McDonald; Shelagh K Malham; Davey L Jones Journal: Front Microbiol Date: 2017-01-24 Impact factor: 5.640