Presence of hepatitis E virus in commercially available pork products

An increasing number of hepatitis E virus (HEV) infections in industrialized countries have been foodborne and linked to the consumption of undercooked pork products. To date, data on the prevalence of HEV in pork products sold in the United States is limited and no standard processing method exists...

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Veröffentlicht in:	International journal of food microbiology 2021-02, Vol.339, p.109033, Article 109033
Hauptverfasser:	Harrison, La'Chia, Ramos, Thais De Melo, Wu, Xi, DiCaprio, Erin
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals filtration food microbiology Food Microbiology - statistics & numerical data Foodborne diseases Foodborne infection ground pork Hepatitis Hepatitis E - epidemiology Hepatitis E virus (HEV) Hepatitis E virus - genetics Hepatovirus industrialization Inhibitors Liver Liver - virology Meat products Meat Products - virology mice Norovirus Norovirus - genetics Orthohepevirus A Packages Plaque assay Pork Pork Meat - virology Pork products Prevalence Process control Process controls Processing method development Red Meat - virology Reverse transcriptase PCR (RT-PCR) detection Ribonucleic acid RNA RNA, Viral - analysis Swine Swine Diseases - epidemiology Ultracentrifugation United States Viruses
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description	An increasing number of hepatitis E virus (HEV) infections in industrialized countries have been foodborne and linked to the consumption of undercooked pork products. To date, data on the prevalence of HEV in pork products sold in the United States is limited and no standard processing method exists for the detection of HEV in foods. In order to develop a processing method for the detection of HEV in pork products, ground pork and pork liver were selected for method development. Murine norovirus (MNV) was used as a process control. A filtration step prior to RNA detection was shown to reduce the level of PCR inhibitors in ground pork and an additional ultracentrifugation process was successful in removing PCR inhibitors in pork liver. MNV RNA was detected in ground pork and liver samples inoculated with 4.7 log10 PFU/g and 3.0 log10 PFU/g, respectively. Using the developed method for viral RNA detection in ground pork and pork liver, 20 packages of ground pork (six 1 g sub-samples per package) and 14 pork livers (four 1 g sub-samples per liver) were screened for the presence of HEV RNA. Fifteen out of 119 (12.6%) ground pork samples tested positive for HEV RNA and 13 out of 20 packages (65%) contained at least one positive sample. Twenty-five of 56 (45%) of pork liver samples were positive for HEV RNA and 6 of 14 livers (43%) had all sub-samples test positive for HEV RNA. Overall, the results indicate ground pork and pig liver as a potential source of HEV. •Filtration increased the recovery of viral RNA from ground pork samples•Filtration coupled with ultracentrifugation was required to recover viral RNA from pork liver.•HEV RNA was detected in both ground pork and pork liver using optimized sample processing methods.
doi_str_mv	10.1016/j.ijfoodmicro.2020.109033
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To date, data on the prevalence of HEV in pork products sold in the United States is limited and no standard processing method exists for the detection of HEV in foods. In order to develop a processing method for the detection of HEV in pork products, ground pork and pork liver were selected for method development. Murine norovirus (MNV) was used as a process control. A filtration step prior to RNA detection was shown to reduce the level of PCR inhibitors in ground pork and an additional ultracentrifugation process was successful in removing PCR inhibitors in pork liver. MNV RNA was detected in ground pork and liver samples inoculated with 4.7 log10 PFU/g and 3.0 log10 PFU/g, respectively. Using the developed method for viral RNA detection in ground pork and pork liver, 20 packages of ground pork (six 1 g sub-samples per package) and 14 pork livers (four 1 g sub-samples per liver) were screened for the presence of HEV RNA. Fifteen out of 119 (12.6%) ground pork samples tested positive for HEV RNA and 13 out of 20 packages (65%) contained at least one positive sample. Twenty-five of 56 (45%) of pork liver samples were positive for HEV RNA and 6 of 14 livers (43%) had all sub-samples test positive for HEV RNA. 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To date, data on the prevalence of HEV in pork products sold in the United States is limited and no standard processing method exists for the detection of HEV in foods. In order to develop a processing method for the detection of HEV in pork products, ground pork and pork liver were selected for method development. Murine norovirus (MNV) was used as a process control. A filtration step prior to RNA detection was shown to reduce the level of PCR inhibitors in ground pork and an additional ultracentrifugation process was successful in removing PCR inhibitors in pork liver. MNV RNA was detected in ground pork and liver samples inoculated with 4.7 log10 PFU/g and 3.0 log10 PFU/g, respectively. Using the developed method for viral RNA detection in ground pork and pork liver, 20 packages of ground pork (six 1 g sub-samples per package) and 14 pork livers (four 1 g sub-samples per liver) were screened for the presence of HEV RNA. Fifteen out of 119 (12.6%) ground pork samples tested positive for HEV RNA and 13 out of 20 packages (65%) contained at least one positive sample. Twenty-five of 56 (45%) of pork liver samples were positive for HEV RNA and 6 of 14 livers (43%) had all sub-samples test positive for HEV RNA. 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Fifteen out of 119 (12.6%) ground pork samples tested positive for HEV RNA and 13 out of 20 packages (65%) contained at least one positive sample. Twenty-five of 56 (45%) of pork liver samples were positive for HEV RNA and 6 of 14 livers (43%) had all sub-samples test positive for HEV RNA. Overall, the results indicate ground pork and pig liver as a potential source of HEV. •Filtration increased the recovery of viral RNA from ground pork samples•Filtration coupled with ultracentrifugation was required to recover viral RNA from pork liver.•HEV RNA was detected in both ground pork and pork liver using optimized sample processing methods.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>33401188</pmid><doi>10.1016/j.ijfoodmicro.2020.109033</doi><oa>free_for_read</oa></addata></record>
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subjects	Animals filtration food microbiology Food Microbiology - statistics & numerical data Foodborne diseases Foodborne infection ground pork Hepatitis Hepatitis E - epidemiology Hepatitis E virus (HEV) Hepatitis E virus - genetics Hepatovirus industrialization Inhibitors Liver Liver - virology Meat products Meat Products - virology mice Norovirus Norovirus - genetics Orthohepevirus A Packages Plaque assay Pork Pork Meat - virology Pork products Prevalence Process control Process controls Processing method development Red Meat - virology Reverse transcriptase PCR (RT-PCR) detection Ribonucleic acid RNA RNA, Viral - analysis Swine Swine Diseases - epidemiology Ultracentrifugation United States Viruses
title	Presence of hepatitis E virus in commercially available pork products
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