Risk assessment in shellfish-borne outbreaks of hepatitis A.
about
Human norovirus occurrence and diversity in the Llobregat river catchment, Spain.Adsorption characteristics of an enteric virus-binding protein to norovirus, rotavirus and poliovirus.Bovine norovirus: carbohydrate ligand, environmental contamination, and potential cross-species transmission via oysters.Shellfish-borne viral outbreaks: a systematic review.Quantification and genotyping of human sapoviruses in the Llobregat river catchment, Spain.Microfluidic quantitative PCR for simultaneous quantification of multiple viruses in environmental water samples.Strain-dependent norovirus bioaccumulation in oystersCalicivirus removal in a membrane bioreactor wastewater treatment plantHepatitis A virus genotype distribution during a decade of universal vaccination of preadolescentsA Novel High-Throughput Method for Molecular Detection of Human Pathogenic Viruses Using a Nanofluidic Real-Time PCR System.Concentration of norovirus during wastewater treatment and its impact on oyster contaminationTwo-year systematic study to assess norovirus contamination in oysters from commercial harvesting areas in the United Kingdom.A single mutation in the glycophorin A binding site of hepatitis A virus enhances virus clearance from the blood and results in a lower fitness variant.Feeding of the probiotic bacterium Enterococcus faecium NCIMB 10415 differentially affects shedding of enteric viruses in pigsNorovirus genotypes present in oysters and in effluent from a wastewater treatment plant during the seasonal peak of infections in Ireland in 2010.Susceptibility of murine norovirus and hepatitis A virus to electron beam irradiation in oysters and quantifying the reduction in potential infection risks.Environmental detection of genogroup I, II, and IV noroviruses by using a generic real-time reverse transcription-PCR assay.Quantitative PCR Detection and Characterisation of Human Adenovirus, Rotavirus and Hepatitis A Virus in Discharged Effluents of Two Wastewater Treatment Facilities in the Eastern Cape, South Africa.Norovirus contamination on French marketed oysters.Hepatitis A virus evolution and the potential emergence of new variants escaping the presently available vaccines.Seroprevalence of hepatitis A virus antibody in a population aged 0-30 years in Shanghai, China: implications for hepatitis A immunization.Occurrence and Trend of Hepatitis A Virus in Bivalve Molluscs Production Areas Following a Contamination Event.Human and animal enteric virus in groundwater from deep wells, and recreational and network water.Hepatitis A virus adaptation to cellular shutoff is driven by dynamic adjustments of codon usage and results in the selection of populations with altered capsids.Norovirus and other human enteric viruses in moroccan shellfish.Food-Borne Viruses in Shellfish: Investigation on Norovirus and HAV Presence in Apulia (SE Italy).Impact of xynthia tempest on viral contamination of shellfish.Contamination by Norovirus and Adenovirus on Environmental Surfaces and in Hands of Conscripts in Two Finnish Garrisons.International linkage of two food-borne hepatitis A clusters through traceback of mussels, the Netherlands, 2012.The Fate of Mengovirus on Fiberglass Filter of Air Handling Units.Incidence of human adenoviruses and Hepatitis A virus in the final effluent of selected wastewater treatment plants in Eastern Cape Province, South Africa.Improved Detection of Norovirus and Hepatitis A Virus in Surface Water by Applying Pre-PCR Processing.Evaluation of Two Triplex One-Step qRT-PCR Assays for the Quantification of Human Enteric Viruses in Environmental Samples.Assessment and Evaluation of an Integrated Hybrid Anaerobic-Aerobic Sewage Treatment System for the Removal of Enteric Viruses.Propidium Monoazide Integrated with qPCR Enables the Detection and Enumeration of Infectious Enteric RNA and DNA Viruses in Clam and Fermented Sausages.Efficacy of domestic cooking inactivation of human hepatitis A virus in experimentally infected manila clams (Ruditapes philippinarum).The application of phage-based faecal pollution markers to predict the concentration of adenoviruses in mussels (Mytilus edulis) and their overlying waters.Retention of Rotavirus Infectivity in Mussels Heated by Using the French Recipe Moules Marinières.Novel biochip platform for nucleic acid analysis.Molecular basis of the behavior of hepatitis a virus exposed to high hydrostatic pressure.
P2860
Q30409966-466565D1-15D1-4A51-8506-2C71B123AC65Q34103880-38ABAB5B-22FA-4431-91D1-A0E3A5E64005Q34177706-36D2BA9E-B3C0-4BE5-B013-BF2E08E30D45Q34327952-BFE89054-D6F9-4933-AB52-12C20C8E3939Q34528819-18D1F7BA-A332-4605-BA49-B708E78F379CQ34595533-55E5E30B-5D3F-4E46-A64A-FDB0F5665FC3Q35077316-6AAE50E2-6652-4F50-BFB4-AE3DE63B0DEDQ35139014-346CF3EA-EAAA-4A3C-927E-5B15133F7882Q35585415-24319F0A-AEF5-4467-9376-16A505541C07Q35908557-E64DABD2-14B0-4606-912D-405D43E8DEAFQ35941185-6EEFF636-376A-49BE-92E8-8B0A66D1DDCDQ36120286-8514BD38-D28C-428B-8A2C-D9528368B329Q36171790-B6EBE6CB-2686-4F1F-B57A-3FA3F3530DC5Q36200706-3CB49714-14AA-4AB7-A3A7-FC2B145456A2Q36757275-FDB93F73-0FB2-48AF-A00E-595B4C576772Q36911220-59153B0F-4686-4CE5-B993-C1EBB4094322Q37263983-5AA39736-299E-40CF-8514-12E1C9BCC698Q37389635-632AEB69-D4CF-4A8C-8BF1-CF749474A5BBQ37640477-F6746F50-4674-467A-8844-54B2218136FCQ37990939-5563A494-7BA2-4224-A94B-42FE31291816Q38017820-F07B0B59-E888-4EFE-8CC9-8576653AA7EEQ38815354-CFF4E1E0-27D6-4A72-89E6-8CC2BE5B497CQ38841435-A63032ED-DE4C-4DB0-95D0-593D003CD5E2Q38860688-1B9DED12-6282-4206-A40E-A8FCA16872C6Q38902974-07E9CB47-9633-475E-9F97-CB7789E7A5A3Q39109148-68A69B2E-D022-417B-90BE-A332CB5375A9Q39117566-19DFEB53-2718-4276-A5AA-49A8B945B13AQ39328928-3D55868B-E6F2-4FF3-82E1-B48A9978D4AFQ40032071-F28C2C70-78EF-455E-B752-D01BE5FA29B5Q40141630-021F220A-C562-4AD4-B1DF-C89690FD65B5Q40150338-5A57E632-E12A-49FB-AAA9-7922F3A50B52Q40246574-B2DDBE43-EB91-4FA6-A87D-29E52771F138Q40251719-0FFCA171-7A3B-4974-B67D-34FB9C10F96CQ40332974-03E3EAE3-D55B-48C5-A7AA-EFE0AA8CAD93Q40395504-3873D1B1-A0BB-4618-B7D4-A83AF789290FQ40602209-5A2557CB-CEAE-4ABC-BE98-376C160B9A84Q40625912-1D318B41-E70A-4D25-9441-77F93AB0668DQ40915246-F21B1EFB-A1EB-4BAF-BDC0-66F09C53CB37Q41990079-504F2B40-68D1-46C3-9F58-FB4F624E7235Q42200945-3DC36E75-7821-49C7-AEB8-80B87F284F5E
P2860
Risk assessment in shellfish-borne outbreaks of hepatitis A.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 09 October 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Risk assessment in shellfish-borne outbreaks of hepatitis A.
@en
Risk assessment in shellfish-borne outbreaks of hepatitis A.
@nl
type
label
Risk assessment in shellfish-borne outbreaks of hepatitis A.
@en
Risk assessment in shellfish-borne outbreaks of hepatitis A.
@nl
prefLabel
Risk assessment in shellfish-borne outbreaks of hepatitis A.
@en
Risk assessment in shellfish-borne outbreaks of hepatitis A.
@nl
P2860
P356
P1476
Risk assessment in shellfish-borne outbreaks of hepatitis A
@en
P2093
Albert Bosch
Rosa M Pintó
P2860
P304
P356
10.1128/AEM.01177-09
P407
P577
2009-10-09T00:00:00Z