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Expert Review of Anti-infective Therapy Volume 10, 2012 - Issue 4
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Reviews

Norovirus diagnostics: options, applications and interpretations

Andrew Kirby Department of Clinical Infection, Microbiology & Immunology, Institute of Infection and Global Health, University of Liverpool, Liverpool, UK. [email protected]; Department of Clinical Infection, Microbiology & Immunology, Institute of Infection and Global Health, University of Liverpool, Liverpool, UK. [email protected]
&
Miren Iturriza-Gómara Enteric Virus Unit, Virus Reference Department, Health Protection Agency, London, UK; Enteric Virus Unit, Virus Reference Department, Health Protection Agency, London, UK
Pages 423-433 | Published online: 10 Jan 2014

References

  • Xi JN, Graham DY, Wang KN, Estes MK. Norwalk virus genome cloning and characterization. Science 250(4987), 1580–1583 (1990).
  • Zheng DP, Ando T, Fankhauser RL, Beard RS, Glass RI, Monroe SS. Norovirus classification and proposed strain nomenclature. Virology 346(2), 312–323 (2006).
  • Siebenga JJ, Vennema H, Renckens B et al. Epochal evolution of GGII.4 norovirus capsid proteins from 1995 to 2006. J. Virol. 81(18), 9932–9941 (2007).
  • Kaplan NM, Kirby A, Abd-Eldayem SA et al. Detection and molecular characterisation of rotavirus and norovirus infections in Jordanian children with acute gastroenteritis. Arch. Virol. 156(8), 1477–1480 (2011).
  • Zeng M, Gong Z, Zhang Y, Zhu Q, Wang X. Prevalence and genetic diversity of norovirus in outpatient children with acute diarrhea in shanghai, china. Jpn J. Infect. Dis. 64(5), 417–422 (2011).
  • Bull RA, Eden JS, Rawlinson WD, White PA. Rapid evolution of pandemic noroviruses of the GII.4 lineage. PLoS Pathog. 6(3), e1000831 (2010).
  • Domingo E, Escarmis C, Sevilla N et al. Basic concepts in RNA virus evolution. FASEB J. 10(8), 859–864 (1996).
  • Tan M, Jiang X. Norovirus-host interaction: implications for disease control and prevention. Exp. Rev. Mol. Med. 9(19), 1–22 (2007).
  • Hansman GS, Natori K, Shirato-Horikoshi H et al. Genetic and antigenic diversity among noroviruses. J. Gen. Virol. 87(Pt 4), 909–919 (2006).
  • Allen DJ, Gray JJ, Gallimore CI, Xerry J, Iturriza-Gomara M. Analysis of amino acid variation in the P2 domain of the GII-4 norovirus VP1 protein reveals putative variant-specific epitopes. PLoS One 3(1), e1485 (2008).
  • Glass RI, Parashar UD, Estes MK. Norovirus gastroenteritis. N. Engl. J. Med. 361(18), 1776–1785 (2009).
  • Lopman BA, Reacher MH, Vipond IB, Sarangi J, Brown DW. Clinical manifestation of norovirus gastroenteritis in health care settings. Clin. Infect. Dis. 39(3), 318–324 (2004).
  • Rockx B, De Wit M, Vennema H et al. Natural history of human calicivirus infection: a prospective cohort study. Clin. Infect. Dis. 35(3), 246–253 (2002).
  • Roddie C, Paul JP, Benjamin R et al. Allogeneic hematopoietic stem cell transplantation and norovirus gastroenteritis: a previously unrecognized cause of morbidity. Clin. Infect. Dis. 49(7), 1061–1068 (2009).
  • Schwartz S, Vergoulidou M, Schreier E et al. Norovirus gastroenteritis causes severe and lethal complications after chemotherapy and hematopoietic stem cell transplantation. Blood 117(22), 5850–5856 (2011).
  • Harris JP, Edmunds WJ, Pebody R, Brown DW, Lopman BA. Deaths from norovirus among the elderly, England and Wales. Emerg. Infect. Dis. 14(10), 1546–1552 (2008).
  • Amar CF, East CL, Gray J, Iturriza-Gomara M, Maclure EA, McLauchlin J. Detection by PCR of eight groups of enteric pathogens in 4,627 faecal samples: re-examination of the English case-control Infectious Intestinal Disease Study (1993–1996). Eur. J. Clin. Microbiol. Infect. Dis. 26(5), 311–323 (2007).
  • Iturriza-Gomara M, Elliot AJ, Dockery C, Fleming DM, Gray JJ. Structured surveillance of infectious intestinal disease in pre-school children in the community: ‘The Nappy Study’. Epidemiol. Infect. 137(7), 922–931 (2009).
  • Koopmans M. Progress in understanding norovirus epidemiology. Curr. Opin. Infect. Dis. 21(5), 544–552 (2008).
  • Iturriza Gomara M, Simpson R, Perault AM et al. Structured surveillance of infantile gastroenteritis in East Anglia, UK: incidence of infection with common viral gastroenteric pathogens. Epidemiol. Infect. 136(1), 23–33 (2008).
  • Patel MM, Widdowson MA, Glass RI, Akazawa K, Vinje J, Parashar UD. Systematic literature review of role of noroviruses in sporadic gastroenteritis. Emerg. Infect. Dis. 14(8), 1224–1231 (2008).
  • de Wit MA, Widdowson MA, Vennema H, de Bruin E, Fernandes T, Koopmans M. Large outbreak of norovirus: the baker who should have known better. J. Infect. 55(2), 188–193 (2007).
  • Showell D, Sundkvist T, Reacher M, Gray J. Norovirus outbreak associated with canteen salad in Suffolk, United Kingdom. Euro. Surveill. 12(11), e071129 (2007).
  • Huppatz C, Munnoch SA, Worgan T et al. A norovirus outbreak associated with consumption of NSW oysters: implications for quality assurance systems. Commun. Dis. Intell. 32(1), 88–91 (2008).
  • Phillips G, Tam CC, Rodrigues LC, Lopman B. Risk factors for symptomatic and asymptomatic norovirus infection in the community. Epidemiol. Infect. 139, 1676–1686 (2011).
  • Parshionikar SU, Willian-True S, Fout GS et al. Waterborne outbreak of gastroenteritis associated with a norovirus. Appl. Environ. Microbiol. 69(9), 5263–5268 (2003).
  • Marks PJ, Vipond IB, Carlisle D, Deakin D, Fey RE, Caul EO. Evidence for airborne transmission of Norwalk-like virus (NLV) in a hotel restaurant. Epidemiol. Infect. 124(3), 481–487 (2000).
  • Chan MC, Sung JJ, Lam RK et al. Fecal viral load and norovirus-associated gastroenteritis. Emerg. Infect. Dis. 12(8), 1278–1280 (2006).
  • Teunis PF, Moe CL, Liu P et al. Norwalk virus: how infectious is it? J. Med. Virol. 80(8), 1468–1476 (2008).
  • Ajami N, Koo H, Darkoh C et al. Characterization of norovirus-associated traveler’s diarrhea. Clin. Infect. Dis. 51(2), 123–130 (2010).
  • Morter S, Bennet G, Fish J et al. Norovirus in the hospital setting: virus introduction and spread within the hospital environment. J. Hosp. Infect. 77(2), 106–112 (2011).
  • Lopman BA, Reacher MH, Vipond IB et al. Epidemiology and cost of nosocomial gastroenteritis, Avon, England, 2002–2003. Emerg. Infect. Dis. 10(10), 1827–1834 (2004).
  • Updated norovirus outbreak management and disease prevention guidelines. MMWR Recomm. Rep. 60(RR-3), 1–18 (2011).
  • Huang P, Farkas T, Marionneau S et al. Noroviruses bind to human ABO, Lewis, and secretor histo-blood group antigens: identification of 4 distinct strain-specific patterns. J. Infect. Dis. 188(1), 19–31 (2003).
  • Huang P, Farkas T, Zhong W et al. Norovirus and histo-blood group antigens: demonstration of a wide spectrum of strain specificities and classification of two major binding groups among multiple binding patterns. J. Virol. 79(11), 6714–6722 (2005).
  • Lindesmith L, Moe C, Marionneau S et al. Human susceptibility and resistance to Norwalk virus infection. Nat. Med. 9(5), 548–553 (2003).
  • Rockx BH, Vennema H, Hoebe CJ, Duizer E, Koopmans MP. Association of histo-blood group antigens and susceptibility to norovirus infections. J. Infect. Dis. 191(5), 749–754 (2005).
  • Hutson AM, Atmar RL, Estes MK. Norovirus disease: changing epidemiology and host susceptibility factors. Trends Microbiol. 12(6), 279–287 (2004).
  • Hutson AM, Atmar RL, Graham DY, Estes MK. Norwalk virus infection and disease is associated with ABO histo-blood group type. J. Infect. Dis. 185(9), 1335–1337 (2002).
  • Marionneau S, Ruvoen N, Le Moullac-Vaidye B et al. Norwalk virus binds to histo-blood group antigens present on gastroduodenal epithelial cells of secretor individuals. Gastroenterology 122(7), 1967–1977 (2002).
  • Carlsson B, Kindberg E, Buesa J et al. The G428A nonsense mutation in FUT2 provides strong but not absolute protection against symptomatic GII.4 Norovirus infection. PLoS One 4(5), e5593 (2009).
  • Nordgren J, Kindberg E, Lindgren PE, Matussek A, Svensson L. Norovirus gastroenteritis outbreak with a secretor-independent susceptibility pattern, Sweden. Emerg. Infect. Dis. 16(1), 81–87 (2010).
  • Kindberg E, Akerlind B, Johnsen C et al. Host genetic resistance to symptomatic norovirus (GGII.4) infections in Denmark. J. Clin. Microbiol. 45(8), 2720–2722 (2007).
  • de Rougemont A, Ruvoen-Clouet N, Simon B et al. Qualitative and quantitative analysis of the binding of GII.4 norovirus variants onto human blood group antigens. J. Virol. 85(9), 4057–4070 (2011).
  • Parrino TA, Schreiber DS, Trier JS, Kapikian AZ, Blacklow NR. Clinical immunity in acute gastroenteritis caused by Norwalk agent. New Engl. J. Med. 297(2), 86–89 (1977).
  • Reeck A, Kavanagh O, Estes MK et al. Serological correlate of protection against norovirus-induced gastroenteritis. J. Infect. Dis. 202(8), 1212–1218 (2010).
  • Atmar RL, Opekun AR, Gilger MA et al. Norwalk virus shedding after experimental human infection. Emerg. Infect. Dis. 14(10), 1553–1557 (2008).
  • Kirkwood CD, Streitberg R. Calicivirus shedding in children after recovery from diarrheal disease. J. Clin. Virol. 43(3), 346–348 (2008).
  • Murata T, Katsushima N, Mizuta K, Muraki Y, Hongo S, Matsuzaki Y. Prolonged norovirus shedding in infants <or=6 months of age with gastroenteritis. Pediatr. Infect. Dis. J. 26(1), 46–49 (2007).
  • Haddow J, Palomaki G. ACCE: a model process for evaluating data on emerging genetic tests. In: Human Genome Epidemiology. Khoury M, Little J, Burke W (Eds). Oxford University Press, NY, USA, 217–233 (2004).
  • Phillips G, Lopman B, Tam CC, Iturriza-Gomara M, Brown D, Gray J. Diagnosing norovirus-associated infectious intestinal disease using viral load. BMC Infect. Dis. 9, 63 (2009).
  • Kapikian AZ, Wyatt RG, Dolin R, Thornhill TS, Kalica AR, Chanock RM. Visualization by immune electron microscopy of a 27-nm particle associated with acute infectious nonbacterial gastroenteritis. J. Virol. 10(5), 1075–1081 (1972).
  • Atmar RL, Metcalf TG, Neill FH, Estes MK. Detection of enteric viruses in oysters by using the polymerase chain reaction. Appl. Environ. Microbiol. 59(2), 631–635 (1993).
  • Kaplan JE, Feldman R, Campbell DS, Lookabaugh C, Gary GW. The frequency of a Norwalk-like pattern of illness in outbreaks of acute gastroenteritis. Am. J. Public Health 72(12), 1329–1332 (1982).
  • Turcios RM, Widdowson MA, Sulka AC, Mead PS, Glass RI. Reevaluation of epidemiological criteria for identifying outbreaks of acute gastroenteritis due to norovirus: United States, 1998–2000. Clin. Infect. Dis. 42(7), 964–969 (2006).
  • Grmek Kosnik I, Peternelj B, Pohar M, Kraigher A. Outbreak of norovirus infection in a nursing home in northern Slovenia, July 2007. Euro. Surveill. 12(10), e071011 (2007).
  • Kapikian AZ. The discovery of the 27-nm Norwalk virus: an historic perspective. J. Infect. Dis. 181(Suppl. 2), S295–S302 (2000).
  • Kirby A, Gurgel RQ, Dove W, Vieira SC, Cunliffe NA, Cuevas LE. An evaluation of the RIDASCREEN and IDEIA enzyme immunoassays and the RIDAQUICK immunochromatographic test for the detection of norovirus in faecal specimens. J. Clin. Virol. 49(4), 254–257 (2010).
  • Morillo SG, Luchs A, Cilli A et al. Norovirus 3rd Generation kit: An improvement for rapid diagnosis of sporadic gastroenteritis cases and valuable for outbreak detection. J. Virol. Methods 173(1), 13–16 (2011).
  • Derrington P, Schreiber F, Day S, Curtis C, Lyon M. Norovirus Ridaquick: a new test for rapid diagnosis of norovirus. Pathology 41(7), 687–688 (2009).
  • Bruins MJ, Wolfhagen MJ, Schirm J, Ruijs GJ. Evaluation of a rapid immunochromatographic test for the detection of norovirus in stool samples. Eur. J. Clin. Microbiol. Infect. Dis. 29(6), 741–743 (2010).
  • Gray JJ, Kohli E, Ruggeri FM et al. European multicenter evaluation of commercial enzyme immunoassays for detecting norovirus antigen in fecal samples. Clin. Vaccine. Immunol. 14(10), 1349–1355 (2007).
  • Li X, Zhou R, Tian X, Li H, Zhou Z. Characterization of a cross-reactive monoclonal antibody against Norovirus genogroups I, II, III and V. Virus Res. 151(2), 142–147 (2010).
  • Shiota T, Okame M, Takanashi S et al. Characterization of a broadly reactive monoclonal antibody against norovirus genogroups I and II: recognition of a novel conformational epitope. J. Virol. 81(22), 12298–12306 (2007).
  • Hale AD, Tanaka TN, Kitamoto N et al. Identification of an epitope common to genogroup 1 “norwalk-like viruses”. J. Clin. Microbiol. 38(4), 1656–1660 (2000).
  • Kitamoto N, Tanaka T, Natori K et al. Cross-reactivity among several recombinant calicivirus virus-like particles (VLPs) with monoclonal antibodies obtained from mice immunized orally with one type of VLP. J. Clin. Microbiol. 40(7), 2459–2465 (2002).
  • Harrington PR, Vinje J, Moe CL, Baric RS. Norovirus capture with histo-blood group antigens reveals novel virus-ligand interactions. J. Virol. 78(6), 3035–3045 (2004).
  • Lamhoujeb S, Charest H, Fliss I, Ngazoa S, Jean J. Real-time molecular beacon NASBA for rapid and sensitive detection of norovirus GII in clinical samples. Can. J. Microbiol. 55(12), 1375–1380 (2009).
  • Iturriza-Gomara M, Xerry J, Gallimore CI, Dockery C, Gray J. Evaluation of the Loopamp (loop-mediated isothermal amplification) kit for detecting Norovirus RNA in faecal samples. J. Clin. Virol. 42(4), 389–393 (2008).
  • Kageyama T, Kojima S, Shinohara M et al. Broadly reactive and highly sensitive assay for Norwalk-like viruses based on real-time quantitative reverse transcription-PCR. J. Clin. Microbiol. 41(4), 1548–1557 (2003).
  • Atmar RL, Neill FH, Le Guyader FS. Detection of human caliciviruses in fecal samples by RT-PCR. Methods Mol. Biol. 665, 39–50 (2011).
  • Mackay IM. Real-time PCR in the microbiology laboratory. Clin. Microbiol. Infect. 10(3), 190–212 (2004).
  • Kojima S, Kageyama T, Fukushi S et al. Genogroup-specific PCR primers for detection of Norwalk-like viruses. J. Virol. Methods 100(1–2), 107–114 (2002).
  • Espy MJ, Uhl JR, Sloan LM et al. Real-time PCR in clinical microbiology: applications for routine laboratory testing. Clin. Microbiol. Rev. 19(1), 165–256 (2006).
  • Rolfe KJ, Parmar S, Mururi D et al. An internally controlled, one-step, real-time RT-PCR assay for norovirus detection and genogrouping. J. Clin. Virol. 39(4), 318–321 (2007).
  • Arya M, Shergill IS, Williamson M, Gommersall L, Arya N, Patel HR. Basic principles of real-time quantitative PCR. Exp. Rev. Mol. Diag. 5(2), 209–219 (2005).
  • Butot S, Le Guyader FS, Krol J, Putallaz T, Amoroso R, Sanchez G. Evaluation of various real-time RT-PCR assays for the detection and quantitation of human norovirus. J. Virol. Methods 167(1), 90–94 (2010).
  • Xerry J, Gallimore CI, Iturriza-Gomara M, Gray JJ. Tracking the transmission routes of genogroup II noroviruses in suspected food-borne or environmental outbreaks of gastroenteritis through sequence analysis of the P2 domain. J. Med. Virol. 81(7), 1298–1304 (2009).
  • Khamrin P, Okame M, Thongprachum A et al. A single-tube multiplex PCR for rapid detection in feces of 10 viruses causing diarrhea. J. Virol. Methods 173(2), 390–393 (2011).
  • Dunbar SA. Applications of Luminex xMAP technology for rapid, high-throughput multiplexed nucleic acid detection. Clin. Chem. Acta 363(1–2), 71–82 (2006).
  • Liu J, Kibiki G, Maro V et al. Multiplex reverse transcription PCR Luminex assay for detection and quantitation of viral agents of gastroenteritis. J. Clin. Virol. (2011).
  • Colquhoun DR, Schwab KJ, Cole RN, Halden RU. Detection of norovirus capsid protein in authentic standards and in stool extracts by matrix-assisted laser desorption ionization and nanospray mass spectrometry. Appl. Environ. Microbiol. 72(4), 2749–2755 (2006).
  • Mattison K, Corneau N, Berg I et al. Development and validation of a microarray for the confirmation and typing of norovirus RT-PCR products. J. Virol. Methods, 173(2), 233–250 (2011).
  • Probert CS, Jones PR, Ratcliffe NM. A novel method for rapidly diagnosing the causes of diarrhea. Gut 53(1), 58–61 (2004).
  • Boillat Blanco N, Kuonen R, Bellini C et al. Chronic norovirus gastroenteritis in a double hematopoietic stem cell and lung transplant recipient. Transpl. Infect. Dis. 13(2), 213–215 (2011).
  • Kirby A, Ashton L, Hart IJ. Detection of norovirus infection in the hospital setting using vomit samples. J. Clin. Virol. 51(1), 86–87 (2011).
  • Kirby A, Dove W, Ashton L, Hopkins M, Cunliffe NA. Detection of norovirus in mouthwash samples from patients with acute gastroenteritis. J. Clin. Virol. 48(4), 285–287 (2010).
  • Nakanishi K, Tsugawa T, Honma S et al. Detection of enteric viruses in rectal swabs from children with acute gastroenteritis attending the pediatric outpatient clinics in Sapporo, Japan. J. Clin. Virol. 46(1), 94–97 (2009).
  • Boxman IL, Verhoef L, Dijkman R, Hagele G, Te Loeke NA, Koopmans M. Year-round prevalence of norovirus in the environment of catering companies without a recently reported outbreak of gastroenteritis. Appl. Environ. Microbiol. 77(9), 2968–2974 (2011).
  • Dingle KE. Mutation in a Lordsdale norovirus epidemic strain as a potential indicator of transmission routes. J. Clin. Microbiol. 42(9), 3950–3957 (2004).
  • Kanerva M, Maunula L, Lappalainen M, Mannonen L, von Bonsdorff CH, Anttila VJ. Prolonged norovirus outbreak in a Finnish tertiary care hospital caused by GII.4-2006b subvariants. J. Hosp. Infect. 71(3), 206–213 (2009).
  • Richards AF, Lopman B, Gunn A et al. Evaluation of a commercial ELISA for detecting Norwalk-like virus antigen in faeces. J. Clin. Virol. 26(1), 109–115 (2003).
  • Xerry J, Gallimore CI, Iturriza-Gomara M, Allen DJ, Gray JJ. Transmission events within outbreaks of gastroenteritis determined through analysis of nucleotide sequences of the P2 domain of genogroup II noroviruses. J. Clin. Microbiol. 46(3), 947–953 (2008).
  • Bon F, Ambert-Balay K, Giraudon H et al. Molecular epidemiology of caliciviruses detected in sporadic and outbreak cases of gastroenteritis in France from December 1998 to February 2004. J. Clin. Microbiol. 43(9), 4659–4664 (2005).
  • Gallimore CI, Cheesbrough JS, Lamden K, Bingham C, Gray JJ. Multiple norovirus genotypes characterised from an oyster-associated outbreak of gastroenteritis. Int. J. Food Microbiol. 103(3), 323–330 (2005).
  • Le Guyader FS, Bon F, DeMedici D et al. Detection of multiple noroviruses associated with an international gastroenteritis outbreak linked to oyster consumption. J. Clin. Microbiol. 44(11), 3878–3882 (2006).
  • Westrell T, Dusch V, Ethelberg S et al. Norovirus outbreaks linked to oyster consumption in the United Kingdom, Norway, France, Sweden and Denmark, 2010. Euro. Surveill. 15(12), pii: 19524 (2010).
  • Prato R, Lopalco PL, Chironna M, Barbuti G, Germinario C, Quarto M. Norovirus gastroenteritis general outbreak associated with raw shellfish consumption in south Italy. BMC Infect. Dis. 4, 37 (2004).
  • Florescu DF, Hill LA, McCartan MA, Grant W. Two cases of Norwalk virus enteritis following small bowel transplantation treated with oral human serum immunoglobulin. Pediatr. Transplant. 12(3), 372–375 (2008).
  • Westhoff TH, Vergoulidou M, Loddenkemper C et al. Chronic norovirus infection in renal transplant recipients. Nephrol. Dial. Transplant 24(3), 1051–1053 (2009).
  • de Wit MA, Koopmans MP, Kortbeek LM et al. Sensor, a population-based cohort study on gastroenteritis in the Netherlands: incidence and etiology. Am. J. Epidemiol. 154(7), 666–674 (2001).
  • Bucardo F, Nordgren J, Carlsson B et al. Pediatric norovirus diarrhea in Nicaragua. J. Clin. Microbiol. 46(8), 2573–2580 (2008).
  • Debbink K, Donaldson EF, Lindesmith LC, Baric RS. Genetic mapping of a highly variable norovirus gii.4 Blockade epitope: potential role in escape from human herd immunity. J. Virol. 86(2), 1214–1226 (2012).
  • Donaldson EF, Lindesmith LC, Lobue AD, Baric RS. Norovirus pathogenesis: mechanisms of persistence and immune evasion in human populations. Immunol. Rev. 225, 190–211 (2008).
  • Lopman B, Zambon M, Brown DW. The evolution of norovirus, the “gastric flu”. PLoS Med. 5(2), e42 (2008).

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