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Expert Review of Anti-infective Therapy Volume 8, 2010 - Issue 11
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Review

Nucleic acid amplification-based diagnosis of respiratory virus infections

James B Mahony Regional Virology Laboratory, St. Joseph’s Healthcare Hamilton, 50 Charlton Ave. East, Hamilton, ON, L8N 4A6, Canada. [email protected]
Pages 1273-1292 | Published online: 10 Jan 2014

References

  • Blomqvist S, Skytta S, Roivainen M, Hovi T. Rapid detection of human rhinoviruses in nasopharyngeal aspirates by a micorwell reverse transcription-PCR-hybridization assay. J. Clin. Microbiol.37, 2813–2813 (1999).
  • WHO. The World Health Report 2004. Changing history. In: WHO Library Cataloging-in-Publication Data. WHO, Geneva, Switzerland, 120–124 (2004).
  • Henrickson KJ, Hoover S, Kehl SC et al. National disease binder of respiratory viruses detected in children by polymerase chain reaction. Pediatr. Infect. Dis. J.24(Suppl. 1), S11–S18 (2004).
  • Pozzetto B, Grattard F, Pillet S. Multiplex PCR theranostics of severe respiratory infections. Expert Rev. Anti Infect. Ther.8(3), 251–253 (2010).
  • Kehl SC, Kumar S. Utilization of nucleic acid amplification assays for the detection of respiratory viruses. Clin. Lab. Med.29, 661–671 (2009).
  • Beck ET, Henrickson KJ. Molecular diagnosis of respiratory viruses. Future Microbiol.5(6), 901–916 (2010).
  • Mahony JB. Detection of respiratory viruses by molecular methods. Clin. Microbiol. Rev.21(4), 716–747 (2008).
  • Wu W, Tang Y-W. Emerging molecular assays for detection and characterization of respiratory viruses. Clin. Lab. Med.29, 673–693 (2009).
  • Atmar RL. Influenza viruses. In: Manual of Clinical Microbiology (9th Edition). Murray PR, El Baron J, Jorgensen JH, Landry ML, Pfaller MA (Eds). ASM Press, Washington, DC, USA, 1340–1351 (2007).
  • Harman M. Influenza Virus. Laboratory Diagnosis of Viral Infections (3rd Edition). Lennett EH, Smith T (Eds). Informa Healthcare, NY, USA, 587–602 (1999).
  • Thompson WW, Shay DK, Weintraub E. Influenza-associated hospitalizations in the United States. JAMA292, 1333–1340 (2004).
  • Zhang WD, Evans WH. Detection and identification of human influenza viruses by the polymerase chain retaction. J. Virol. Methods33, 165–189 (1991).
  • Ellis JS, Fleming DM, Zambon MC. Multiplex reverse transcription-PCR for surveillance of influenza A and B viruses in England and Wales in 1995 and 1996. J. Clin. Microbiol.35, 2076–2082 (1997).
  • Zambon MJ, Hays A, Webster R, Newman, Keene O. Diagnosis of influenza in the community; relationship of clinical diagnosis to confirmed virological, serologic, or molecular detection of influenza. Arch. Intern. Med.161, 2116–2122 (2001).
  • van Elden LJ, Nijhuis M, Schipper P, Schuurman R, van Loon AM. Simultaneous detection of influenza viruses A and B using real-time quantitative PCR. J. Clin. Microbiol.39, 196–200 (2001).
  • Kuypers J, Wright N, Ferrenberg J et al. Comparison of real-time PCR assays with fluorescent-antibody assays for diagnosis of respiratory virus infections in children. J. Clin. Microbiol.44, 2382–2388 (2006).
  • Templeton KE, Scheltinga SA, Beersma MRC, Kroes ACM, Claas ECJ. Rapid and sensitive method using multiplex real-time PCR for diagnosis of infections by influenza A and influenza B viruses, respiratory syncytial virus, and parainfluenza viruses 1, 2, 3, and 4. J. Clin. Microbiol.42, 1564–1569 (2004).
  • Weinberg A, Zamora MR, Li S, Torres F, Hodges TN. The value of polymerase chain reaction for the diagnosis of viral respiratory tract infections in lung transplant recipients. J. Clin. Virol.25, 171–175 (2002).
  • Templeton KE, Scheltinga SA, van den Eeden WC, Graffelman AW, van den Broek PJ, Claas ECJ. Improved diagnosis of the etiology of community-acquired pneumonia with real-time polymerase chain reaction. Clin. Infect. Dis.41, 345–351 (2005).
  • Valle LD, Amicizia S, Bacilieri F et al. Performance testing of two new one-step real time PCR assays for detection of human influenza and avian influenza viruses isolated in humans and respiratory syncytial virus. J. Prev. Med. Hyg.47, 127–133 (2007).
  • Moore CS, Hibbits N, Owen SA et al. Development and evaluation of a real-time nucleic acid sequence based amplification assay for rapid detection of influenza A. J. Med. Virol.74, 619–628 (2004).
  • Mahony J, Chong S, Merante F et al. Development of a respiratory virus panel (RVP) test for the detection of twenty human respiratory viruses using multiplex PCR and a fluid microbead-based assay. J. Clin. Microbiol.45, 2965–2970 (2007).
  • Nolte FS, Marshall DJ, Rasberry C et al. MultiCode-PLx system for multiplexed detection of seventeen respiratory viruses. J. Clin. Microbiol.45, 2779–2786 (2007).
  • LeGoff J, Kara R, Moulin F et al. Evaluation of the one-step multiplex real-time reverse-transcription-PCR ProFlu-1 assay for detection of influenza A and influenza B viruses and respiratory syncytial viruses in children. J. Clin. Microbiol.46, 789–791 (2008).
  • Beck ET, Jurgens LA, Kehl SC et al. Development of a rapid automated influenza A, influenza B, and respiratory syncytial virus A/B multiplex real-time RT-PCR assay and its use during the 2009 H1N1 swine-origin influenza virus epidemic in Milwaukee, Wisconsin. J. Mol. Diagn.12(1), 74–81 (2010).
  • Marshall DJ, Reisdorf E, Harms G et al. Evaluation of a multiplexed PCR assay for detection of respiratory viral pathogens in a public health laboratory setting. J. Clin. Microbiol.45(12), 3875–3882 (2007).
  • Li H, McCormac MA, Estes RW et al. Simultaneous detection and high-throughput identification of a panel of RNA viruses causing respiratory tract infections. J. Clin. Microbiol.45, 2105–2109 (2007).
  • Ng LF, Barr I, Nguyen T et al. Specific detection of H5N1 avian influenza A virus in field specimens by a one-step RT-PCR assay. BMC Infect. Dis.2, 40–47 (2006).
  • Wei HL, Bai GR, Mweene AS et al. Rapid detection of avian influenza virus A and subtype H5N1 by single step multiplex reverse transcription-polymerase chain reaction. Virus Genes32, 261–267 (2006).
  • Xie Z, Pang YS, Liu J, Deng X et al. A multiplex RT-PCR for detection of type A influenza virus and differentiation of avian H5, H7, and H9 hemagglutinin subtypes. Mol. Cell. Probes20, 245–249 (2006).
  • Chen W, He B, Li C et al. Real-time RT-PCR for H5N1 avian influenza A virus detection. J. Med. Microbiol.56, 603–607 (2007).
  • Hoffman B, Harder T, Starick E, Depner K, Werner O, Beer M. Rapid and highly sensitive pathotyping of avian influenza A H5N1 virus by using real-time reverse trascription-PCR. J. Clin. Microbiol.45, 600–603 (2007).
  • Shan S, Ko LS, Collins Z et al. Comparison of nucleic acid-based detection of avian influenza H5N1 with virus isolation. Biochem. Biophys. Res. Commun.7, 377–383 (2003).
  • Jayawardena S. Loop-mediated isothermal amplification for influenza A (H5N1) virus. Emerg. Infect. Dis.13, 899–901 (2007).
  • Zou S, Han J, Wen L et al. Human influenza A virus (H5N1) detection by a novel multiplex PCR typing method. J. Clin. Microbiol.45, 1889–1892 (2007).
  • Krunic N, Yager TD, Himsworth D, Merante F, Yaghoubian S, Janeczko R. xTAG™ RVP assay: analytical and clinical performance. J. Clin. Virol.40(Suppl.), S39–S46 (2007).
  • Townsend MB, Dawson ED, Mahlmann M et al. Experimental evaluation of the FluChip diagnostic microarray for influenza virus surveillance. J. Clin. Microbiol.44, 2863–2871 (2006).
  • Dawson ED, Moore CL, Dankbar DM et al. Identification of A/H5N1 influenza viruses using a single gene diagnostic microarray. Anal. Chem.79, 378–384 (2007).
  • Centers for Disease Control and Prevention (CDC). New laboratory assay for diagnostic testing of avian influenza A/H5 (Asian Lineage). Morb. Mortal. Wkly Rep.10, 127 (2006).
  • Hensley SE, Yewdell JW. Que sera, sera: evolution of the swing H1N1 influenza A virus. Expert Rev. Anti Infect. Ther.7(7), 763–768 (2009).
  • Ginocchio CC, St George K. Likelihood that an unsubtypeable influenza A virus result obtaining with the Luminex xTAG respiratory virus panel is indicative of infection with novel A/H1N1 (swing-like) influenza virus. J. Clin. Microbiol.47(7), 2347–2348 (2009).
  • Mahony JB, Hatchette T, Ojkic D et al. Multiplex PCR tests sentinel the appearance of pandemic influenza viruses including H11 swing influenza. J. Clin. Virol.45, 200–202 (2009).
  • Poon LL, Chan KH, Smith GJ et al. Molecular detection of a novel human influenza (H1N1) of pandemic potential by conventional and real-time quantitative RT-PCR assays. Clin. Chem.55(8), 1555–1558 (2009).
  • Jiang T, Kang X, Deng Y et al. Development of a real-time RT-PCR assay for a novel influenza A (H1N1) virus. J. Virol. Methods163(2), 470–473 (2010).
  • Chiou CC, Chen TL, Tsao KC et al. Detection of pandemic (H1N1) 2009 influenza virus by allele discrimination. Clin. Chim. Acta.411(15–16), 1080–1083 (2010).
  • Ngaosuwankul N, Noisumdaeng P, Komolsiri P et al. Influenza A viral loads in respiratory samples collected from patients infected with pandemic H1N1, seasonal H1N1 and H3N2 viruses. Virol. J.20(7), 75–80 (2010).
  • Hymas WC, Mills A, Ferguson S et al. Development of a multiplex real-time RT-PCR assay for detection of influenza A, influenza B, RSV and typing of the 2009-H1N1 influenza virus. J. Virol. Methods167(2), 113–118 (2010).
  • Ngai KL, Lam WY, Lee N, Leung TF, Hui DS, Chan PK. Allele-specific conventional reverse-transcription polymerase chain reaction as a screening assay for discriminating influenza A H1N1 (H275Y) oseltamivir-resistant and wild-type viruses. J. Med. Virol.82(8), 1295–1298 (2010).
  • Wang B, Dwyer DE, Blyth CC et al. Detection of the rapid emergence of the H275Y mutation associated with oseltamivir resistance in severe pandemic influenza virus A/H1N1 09 infections. Antiviral Res.87(1), 16–21 (2010).
  • Mahony JB, Chong S, Luinstra K, Petrich A, Smieja M. Development of a novel bead-based multiplex PCR assay for combined subtyping and oseltamivir resistance genotyping (H275Y) of seasonal and pandemic H1N1 influenza A viruses. J. Clin. Virol. (In press) (2010).
  • Deyde V, Xu X, Bright R et al. Surveillance of resistance to adamantanes among influenza A (H3N2) and A (H1N1) viruses isolated worldwide. J. Infect. Dis.196, 249–257 (2007).
  • Waner J. Parainfluenza viruses. In: Manual of Clinical Microbiology 7th Edition. Murray P, Baron EJ, Pfaller MA, Tenover FC, Yolker RH (Eds). American Society for Microbiology. Washington, DC, USA, 936–941 (2005).
  • Leland DS. Clinical Virology. WB Saunders Co., Philadelphia, PA, USA (1996).
  • Wright PF. Parainfluenza. In: Principles and Practice of Infectious Diseases. 6th Edition. Mandell GL, Bennett JE, Dolin R (Eds). Churchill Livingstone, PA, USA, 1998–2003 (2005).
  • American Academy of Pediatrics. Parainfluenza viral infections. In: Red Book 2003 Report of the Committee on Infectious Diseases (26th Edition). Pickering IK (Ed.). Elk Grove Village, IL, USA, 454 (2003).
  • Griffin MR, Walker FJ, Iwane MK, Weinberg GA, Staat MA, Erdman DD. Epidemiology of respiratory infections in young children: insights from the new vaccine surveillance network. Pediatr. Infect. Dis. J.23, S188–S192 (2004).
  • Madden JF, Burchette JL Jr, Hale LP. Pathology of parainfluenza virus infection in patients with congenital immunodeficiency syndromes. Hum. Pathol.35, 594–603 (2004).
  • Rabalais GP, Stout GG, Ladd KL, Cost KM. Rapid diagnosis of respiratory viral infections by using a shell vial assay and monoclonal antibody pool. J. Clin. Microbiol.30, 1505–1508 (1992).
  • Cuevas LE, Ben Nasser AM, Dove W, Gurgel RQ, Greensill J, Hart CA. Human metapneumovirus and respiratory syncytial virus, Brazil. Emerg. Infect. Dis.9, 1626–1628 (2003).
  • Landry ML, Ferguson D. SimulFluor respiratory screen for rapid detection of multiple respiratory viruses in clinical specimens by immunofluorescence staining. J. Clin. Microbiol.38, 708–711 (2000).
  • Landry ML. Rhinoviruses. In: Manual of Clinical Microbiology 9th Edition. Murray PR, Baron EI, Jorgensen JH, Landry ML, Pfaller MA (Eds). ASM Press, Washington, DC, USA, 1405–1413 (2007).
  • Fan J, Henrickson KJ. Rapid diagnosis of human parainfluenza virus type 1 infection by quantitative reverse transcription-PCR-enzyme hybridization assay. J. Clin. Microbiol.34, 1914–1917 (1996).
  • Bellau-Pujol Vvabret SA, Legrand L et al. Development of three multiplex RT-PCR assays for the detection of 12 respiratory RNA viruses. J. Virol. Methods126, 53–63 (2005).
  • Druce JT, Tran H, Kelly M et al. Laboratory diagnosis and surveillance of human respiratory viruses by PCR in Victoria, Australia, 2002–2003. J. Med. Virol.75, 122–129 (2005).
  • Freymuth FA, Vabret D, Cuvillon-Nimal S et al. Comparison of multiplex PCR assays and conventional techniques for the diagnostic of respiratory virus infections in children admitted to hospital with an acute respiratory illness. J. Med. Virol.78, 1498–1504 (2006).
  • Kuypers JN, Wright J, Ferrenberg ML et al. Comparison of real-time PCR assays with fluorescent-antibody assays for diagnosis of respiratory virus infections in children. J. Clin. Microbiol.44, 2382–2388 (2006).
  • Fan J, Henrickson KJ, Savatski LL. Rapid simultaneous diagnosis of infections with respiratory syncytial viruses A and B, influenza viruses A and B, and human parainfluenza virus types 1, 2, and 3 by multiplex quantitative reverse transcription-polymerase chain reaction-enzyme hybridization assay (Hexaplex). Clin. Infect. Dis.26, 1397–1402 (1998).
  • Kehl SC, Henrickson KJ, Hua W, Fan J. Evaluation of the Hexaplex assay for detection of respiratory viruses in children. J. Clin. Microbiol.39, 1696–1701 (2001).
  • American Academy of Pediatrics. Respiratory syncytial virus. In: Red Book 2003 Report of the Committee on Infectious Diseases (26th Edition). Pickering IK (Ed.). Elk Grove Village, IL, USA, 523 (2003).
  • Hall CB, McCarthy CA. Respiratory syncytial virus. In: Principles and Practice of Infectious Diseases (Volume 2). Mandell GL, Bennett JE, Dolin R (Eds). Churchill Livingstone, Philadelphia, PA, USA, 1782–1801 (2000).
  • Tristram DA, Welliver RC. Respiratory syncytial virus. In: Manual of Clinical Microbiology 7th Edition. Murray P, Baron EJ, Pfaller MA, Tenover FC, Yolker RH (Eds). American Society for Microbiology, Washington, DC, USA, 942–950 (2005).
  • Fedorko DP, Nelson NA, McAuliffe JM, Subbarao K. Performance of rapid tests for detection of avian influenza A virus types H5N1 and H9N2. J. Clin. Microbiol.44, 1596–1597 (2006).
  • Mahony JB, Chong S, Smieja M, Petrich A, Buracond S, Babwah J. Establishing the epidemiology of respiratory virus infections using molecular technology. Presented at: 107th Annual Meeting of the American Society for Microbiology. Toronto, ON, Canada, May 21–25 2007 (Abstract C-070).
  • Halstead DC, Todd S, Fritch G. Evaluation of five methods for respiratory syncytial virus detection. J. Clin. Microbiol.28, 1021–1025 (1990).
  • Kellogg JA. Culture vs direct antigen assays for detection of microbial pathogens from lower respiratory tract specimens suspected of containing the respiratory syncytial virus. Arch. Pathol. Lab. Med.115, 451–458 (1991).
  • Johnston SL, Siegel CS. Evaluation of direct immunofluorescence, enzyme immunoassay, centrifugation culture, and conventional culture for the detection of respiratory syncytial virus. J. Clin. Microbiol.28, 2394–2397 (1990).
  • Rabalais GP, Stout GG, Ladd KL, Cost KM. Rapid diagnosis of respiratory viral infections by using a shell vial assay and monoclonal antibody pool. J. Clin. Microbiol.30, 1505–1508 (1992).
  • Smith MC, Creutz C, Huang YT. Detection of respiratory syncytial virus in nasopharyngeal secretions by shell vial technique. J. Clin. Microbiol.29, 463–465 (1991).
  • Freymuth F, Eugene G, Vabret A et al. Detection of respiratory syncytial virus by reverse transcription-PCR and hybridization with a DNA enzyme immunoassay. J. Clin. Microbiol.33, 3352–3355 (1995).
  • Moore C, Valappil M, Corden S, Westmoreland D. Enhanced clinical utility of the NucliSens EasyQ RSV A + B assay for rapid detection of respiratory syncytial virus in clinical samples. Eur. J. Clin. Microbiol. Infect. Dis.25, 167–174 (2006).
  • Eugene-Ruellan G, Freymuth F, Bahloul C, Badrane H, Vabret A, Tordo N. Detection of respiratory syncytial virus A and B and parainfluenzavirus 3 sequences in respiratory tracts of infants by a single PCR with primers targeted to the l-polymerase gene and differential hybridization. J. Clin. Microbiol.36, 796–801 (1998).
  • Hindiyeh M, Hillyard DR, Carroll KC. Evaluation of the Prodesse Hexaplex multiplex PCR away for direct detection of seven respiratory viruses in clinical specimens. Am. J. Clin. Pathol.116, 218–224 (2001).
  • Kehl SC, Henrickson KJ, Hua W, Fan J. Evaluation of the Hexaplex assay for detection of respiratory viruses in children. J. Clin. Microbiol.39, 1696–1701 (2001).
  • Syrmis MW, Whiley DM, Thomas M et al. A sensitive specific and cost-effective multiplex reverse transcriptase-PCR assay for the detection of seven common respiratory viruses in respiratory samples. J. Mol. Diagn.6, 125–131 (2004).
  • American Academy of Pediatrics. Adenovirus infections. In: Red Book Report of the Committee on Infectious Diseases (26th Edition). Pickering IK (Ed.). Elk Grove Village, IL, USA, 190–192 (2003).
  • Fox JP, Brandt CD, Wassermann FE et al. The virus watch program: a continuing surveillance of viral infections in metropolitan New York families. VI. Observations of adenovirus infections: virus excretion patterns, antibody response, efficiency of surveillance, patterns of infections, and relation to illness. Am. J. Epidemiol.89, 25–50 (1969).
  • Videla C, Carballal G, Misirlian A, Aguilar M. Acute lower respiratory syncytial virus and adenvirus among hospitalized children from Argentina. Clin. Diagn. Virol.10, 17–23 (1998).
  • Symeonidis N, Jakubowski A, Pierre-Louis S et al. Invasive adenoviral infections in T-cell depleted allogeneic hematopoietic stem cell transplantation: high mortality in the era of cidofovir. Transpl. Infect. Dis.9, 108–113 (2007).
  • Zheng X, Lu X, Erdman DD et al. Identification of adenoviruses in specimens from high-risk pediatric stem cell transplant recipients and controls. J. Clin. Microbiol.46, 317–320 (2008).
  • Hierholzer JC. Adenoviruses in the immunocompromised host. Clin. Microbiol. Rev.5, 262–274 (1992).
  • Robinson C, Echavarria M. Adenoviruses. In: Manual of Clinical Microbiology 9th Edition. Murray PR, Baron J, Jorgensen JH, Landry ML, Pfaller MA (Eds). ASM Press, Washington, DC, USA, 1589–1600 (2007).
  • Echavarria M, Forman M, Ticehurst J, Dumler JS, Charache P. PCR method for detection of adenovirus in urine of healthy and human immunodeficiency virus-infected individuals. J. Clin. Microbiol.36, 3323–3326 (1998).
  • Vabret A, Gouarin S, Joannes M et al. Development of a PCR-and hybridization-based assay (PCR Adenovirus consensus) for the detection and the species identification of adenoviruses in respiratory specimens. J. Clin. Virol.31, 116–122 (2004).
  • Heim A, Ebnet C, Harste G, Pring-Akerblom P. Rapid and quantitative detection of human adenovirus DNA by real-time PCR. J. Med. Virol.70, 228–239 (2003).
  • Osiowy C. Direct detection of respiratory syncytial virus, parainfluenza virus, and adenovirus in clinical respiratory specimens by a multiplex reverse transcription-PCR assay. J. Clin. Microbiol.36, 3149–3150 (1998).
  • Douglas RG Jr. Pathogenesis of rhinovirus common colds in human volunteers. Ann. Otol. Rhinol. Laryngol.79, 563–571 (1970).
  • Myatt TA, Johnston SL, Zuo Z et al. Detection of airborne rhinovirus and its relation to outdoor air supply in office environments. Am. J. Respir. Crit. Care Med.169, 1187–1190 (2004).
  • Kling S, Donninger H, Williams Z et al. Persistence of rhinovirus RNA after asthma exacerbation in children. Clin. Exp. Allergy35, 672–278 (2005).
  • Nokso-Koivisto J, Raty R, Blomqvist S et al. Presence of specific viruses in the middle ear fluids and respiratory secretions of young children with acute otitis media. J. Med. Virol.72, 241–248 (2004).
  • Papdopoulos NG, Papi A, Psarras S, Johnston SL. Mechanisms of rhinovirus-induced asthma. Paediatr. Respir. Rev.5, 255–260 (2004).
  • Turner RB, Cail WS, Hendley JO et al. Physiologic abnormalities in the paranasal sinuses during experimental rhinovirus colds. J. Allergy Clin. Immunol.90, 474–478 (1992).
  • Gern JE. Rhinovirus respiratory infections and asthma. Am. J. Med.112(Suppl. 6A), 19S–27S (2002).
  • Juven T, Mertsola J, Waris M et al. Etiology of community-acquired pneumonia in 254 hospitalized children. Pediatr. Infect. Dis. J.19, 293–298 (2000).
  • Korppi M, Kotaniemi-Syrjanen A, Waris M, Vainionpaa R, Reijonen TM. Rhinovirus-associated wheezing in infancy. Comparison with respiratory syncytial virus bronchiolitis. Pediatr. Infect. Dis. J.23, 995–999 (2004).
  • Miller EK, Lu X, Erdman DD et al.; for the New Vaccine Surveillance Network. Rhinovirus-associated hospitalizations in young children. J. Infect. Dis.195, 773–781 (2007).
  • Papadopoulos NG, Bates PJ, Bardin PG et al. Rhinoviruses infect the lower airways. J. Infect. Dis.181, 1875–1884 (2000).
  • Tsolia MN, Psarras S, Bossios A et al. Etiology of community-acquired pneumonia in hospitalized school-age children: evidence for high prevalence of viral infections. Clin. Infect. Dis.39, 681–686 (2004).
  • Louie JK, Yagi S, Nelson FA et al. Rhinovirus outbreak in all long term care facility for elderly persons associated with unusually high mortality. Clin. Infect. Dis.41, 262–265 (2005).
  • Nicholson KG, Kent J, Hammersley V, Cancio E. Risk factors for lower respiratory complications for rhinovirus infections in elderly people living in the community: prospective cohort study. BMJ313, 1119–1123 (1996).
  • Treanor J, Falsey A. Respiratory viral infections in the elderly Antivir. Res.44, 79–102 (1999).
  • Christensen MS, Nielsen LP, Hasle H. Few but severe viral infections in children with cancer: a prospective RT-PCR and PCR-based 12-month study. Pediatr. Blood Cancer45, 945–951 (2005).
  • Kumar D, Erdman D, Keshavjee S et al. Clinical impact of community-acquired respiratory viruses on bronchiolitis obliterans after lung transplant. Am. J. Transpl.5, 2031–2036 (2005).
  • Rabella N, Rodriguez P, Labeaga R et al. Conventional respiratory viruses recovered from immunocompromised patients: clinical considerations. Clin. Infect. Dis.28, 1043–1048 (1999).
  • van Kraaij MGJ, van Elden LLR, van Loon AM et al. Frequent detection of respiratory viruses in adult recipients of stem cell transplants with the use of real-time polymerase chain reaction, compared with viral culture. Clin. Infect. Dis.40, 662–669 (2005).
  • Xatzipsalti M, Kyrana S, Tsolia M et al. Rhinovirus viremia in children with respiratory infections. Am. J. Respir. Crit. Care Med.172, 1037–1040 (2005).
  • Winther B, Hayden FG, Hendley JO. Picornavirus infections in children diagnosed with weekly sampling: association with symptomatic illness and effect of season. J. Med. Virol.78, 644–650 (2006).
  • Arruda E, Crump CE, Rollins BS, Ohlin A, Hayden FG. Comparative susceptibilities of human embryonic fibroblasts and HeLa cells for isolation of human rhinoviruses. J. Clin. Microbiol.34, 1277–1279 (1996).
  • Blomqvist S, Skytta S, Roivainen M, Hovi T. Rapid detection of human rhinoviruses in nasopharyngeal aspirates by a micorwell reverse transcription-PCR-hybridization assay. J. Clin. Microbiol.37, 2813–2813 (1999).
  • Halonen P, Rocha E, Hierholzer J et al. Detection of enteroviruses and rhinoviruses in clinical specimens by PCR and liquid-phase hybridization. J. Clin. Microbiol.33, 648–653 (1995).
  • Hyypiä T, Puhakka T, Ruuskanen O et al. Molecular diagnosis of human rhinovirus infections: comparison with virus isolation. J. Clin. Microbiol.36, 2081–2083 (1998).
  • Loens K, Goossens C, de Laat H et al. Detection of rhinoviruses by tissue culture and two independent amplification techniques, nucleic acid sequence-based amplification and reverse transcription-PCR, in children with acute respiratory infections during a winter season. J. Clin. Microbiol.44, 166–171 (2006).
  • Stanway G, Joki-Korpela P, Hyypia T. Human parechoviruses – biology and clinical significance. Rev. Med. Virol.10, 57–69 (2000).
  • Vuorinen T, Vainionpää R, Hyypiä T. Five years’ experience of reverse-transcriptase polymerase chain reaction in daily diagnosis of enterovirus and rhinovirus infections. Clin. Infect. Dis.37, 452–455 (2003).
  • Kares S, Lonnrot M, Vuorinen P, Oikarinen S, Taurianen S, Hyoty H. Real-time PCR for rapid diagnosis of entero- and rhinovirus infections using LightCycler. J. Clin. Virol.29, 99–104 (2004).
  • Dagher H, Donninger J, Hutchinson P, Ghildyal R, Bardin P. Rhinovirus detection: comparison of real-time and conventional PCR. J. Virol. Methods117, 113–121 (2004).
  • Briese T, Palacios G, Korkoris M. Diagnostic system for rapid and sensitive differential detection pathogens. Emerg. Infect. Dis.11, 310–313 (2005).
  • Melnick JL, Wenner HA, Phillips CA. Enteroviruses. In: Diagnostic Procedures for Viral, Rickettsial and Chlamydia Infections 5th Edition. Lennette EH, Schmidt NJ (Eds). American Public Health Association, Washington, DC, USA, 471–534 (1979).
  • Benshop KS, Shinkel J, Minnaar RP, Pajkrt D, Spanjerberg L, Kraaman HC. Human parechovirus infections in Dutch children and the association between serotype and disease severity. Clin. Infect. Dis.42, 204–210 (2006).
  • Beer KD, Beebe, JL Maguire HF. Improved respiratory virus surveillance in Colorado using a Luminex-based detection assay. Presented at: 107th Annual Meeting of the American Society for Microbiology, Toronto, Canada, 21–25 May 2007 (Abstract C-069).
  • Boivin G, Abed Y, Boucher FD. Human parechovirus-3 and neonatal infections. Emerg. Infect. Dis.11, 103–105 (2005).
  • Hsiung GD, Wang JR. Enterovirus infections with special reference to enterovirus 71. J. Microbiol. Immunol. Infect.33, 1–8 (2000).
  • Cherry JD. Enteroviruses and parechoviruses. In: Textbook of Pediatric Infectious Diseases (5th Edition) Volume 2. Feigin RD, Cherry JD, Demmler G, Kaplan SL (Eds). Saunders, PA, USA, 1984–2041 (2004).
  • Koskiniemi M, Paetau R, Linnavuori K. Severe encephalitis associated with disseminated echovirus 22 infection. Scand. J. Infect. Dis.21, 463–466 (1989).
  • Figueroa JP, Ashley D, King D, Hull B. An outbreak of acute flaccid paralysis in Jamaica associated with echovirus type 22. J. Med. Virol.29, 315–319 (1989).
  • Ito M, Yamashita T, Tsuzuki H, Takeda N, Sakae K. Isolation and identification of a novel human parechovirus. J. Gen. Virol.85, 391–398 (2004).
  • Chonmaitree T, Ford C, Sanders C, Lucia HS. Comparison of cell cultures for rapid isolation of enteroviruses. J. Clin. Microbiol.26, 2576–2580 (1988).
  • Klespies SL, Cebula DE, Kelley CL, Galehouse D, Maurer CC. Detection of enteroviruses from clinical specimens by spin amplification shell vial culture and monoclonal antibody assay. J. Clin. Microbiol.34, 1465–1467 (1996).
  • Romero JR. Reverse-transcription-polymerase chain reaction detection of the enteroviruses: overview and clinical utility in pediatric enteroviral infections. Arch. Pathol. Lab. Med.123, 1161–1169 (1999).
  • Romero JR, Rotbart HA. PCR-based strategies for the detection of human enteroviruses. In: PCR-based Diagnostics in Infectious Disease. Ehrlich GD, Greenberg SJ (Eds). Blackwell Scientific Publications, Boston, MA, USA, 341–374 (1994).
  • Rotbart HA. Nucleic acid detection systems for enteroviruses. Clin. Microbiol. Rev.4, 156–168 (1991).
  • Buck GE, Wiesemann M, Stewart L. Comparison of mixed cell culture containing genetically engineered BGMK and CaCo-2 cells (Super Emix) with RT-PCR and conventional cell culture for the diagnosis of enterovirus meningitis. J. Clin. Virol.25, S13–S18 (2002).
  • Kuroiwa Y, Nagai K, Okita L et al. Comparison of an immunochromatography test with multiplex reverse transcription-PCR for rapid diagnosis of respiratory syncytial virus infections. J. Clin. Microbiol.42, 4812–4814 (2004).
  • Capaul SE, Gorgievski-Hrisoho M. Detection of entervirus RNA in cerebrospinal fluid (CSF) using NucliSens EasyQ entervirus assay. J. Clin. Virol.32, 236–240 (2005).
  • Landry ML, Garner R, Ferguson D. Comparison of the NucliSens basic kit (nucleic acid sequence-based amplification) and the Argene Biosoft enterovirus consensus reverse transcription-PCR assays for rapid detection of enterovirus RNA in clinical specimens. J. Clin. Microbiol.41, 5006–5010 (2003).
  • Seme K, Mocilnik T, Komios KF, Doplihar A, Persing DH, Poljak M. GeneXpert Enterovirus assay: one-year experience in a routine laboratory setting and evaluation on three proficiency panels. J. Clin. Microbiol.46, 1510–1513 (2008).
  • Kost CB, Rogers B, Oberste MS et al. Multicenter beta trial of the GeneXpert Enterovirus assay. J. Clin. Microbiol.45, 1081–1086 (2007).
  • Legay V, Chomel JJ, Fernandez E, Lina B, Aymard M, Khalfan S. Encephalomyelitis due to human parechovirus type 1. J. Clin. Virol.25, 193–195 (2002).
  • Van den Hoogen BG, Bestebroer TM, Osterhaus ADME, Fouchier RA. Analysis of the genomic sequence of a human metapneumovirus. Virology295, 119–132 (2002).
  • Van den Hoogen BG, de Jong JC, Goren J et al. A newly discovered human pneumovirus isolated from young children with respiratory tract disease. Nat. Med.7, 719–724 (2001).
  • Konig B, Konig W, Arnold R, Werchau H, Ihorst G, Forster J. Prospective study of human metapneumovirus infection in children less than 3 years of age. J. Clin. Microbiol.42, 4632–4635 (2004).
  • Van den Hoogen BG, van Doornum GJJ, Fockens JC et al. Prevalence and clinical symptoms of human metapneumovirus infection in hospitalized patients. J. Infect. Dis.188, 1571–1577 (2003).
  • Kaida A, Iritani N, Kubo H, Shiomi M, Kohdera U, Murakami T. Seasonal distribution and phylogenetic analysis of human metapneumovirus among children in Osaka City, Japan. J. Clin. Virol.35, 394–399 (2006).
  • Robinson JL, Lee BE, Bastien N, Li Y. Seasonality and clinical features of human metapneumovirus infection in children in northern Alberta. J. Med. Virol.76, 98–105 (2005).
  • Van den Hoogen BD, Osterhaus ADME, Fouchier RA. Clinical impact and diagnosis of human metapneumovirus infection. Ped. Infect. Dis. J.23, S25–S32 (2004).
  • Williams JV, Harris PA, Tollefson SJ et al. Human metapneumovirus and lower respiratory tract disease in otherwise healthy infants and children. N. Engl. J. Med.350, 443–450 (2004).
  • Boivin G, Abed Y, Pelletier G et al. Virological features and clinical manifestations associated with human metapneumovirus: a new paramyxovirus resposible for acute respiratory-tract infections in all age groups. J. Infect. Dis.186, 1330–1334 (2002).
  • Peret TCT, Boivin G, Li Y et al. Characterization of human metapneumovirus isolated from patients in North America. J. Infect. Dis.185, 1660–1663 (2002).
  • Stockton J, Stephenson I, Fleming D. Human metapneumovirus as a cause of community-acquired respiratory illness. Emerg. Infect. Dis.8, 879–901 (2002).
  • Tang YW, Crowe JE Jr. Respiratory syncytial virus and human metapneumovirus. In: Manual of Clinical Microbiology, 9th Edition. Murray PR, Baron EJ, Jorgensen JH, Landry ML, Pfaller A (Eds). ASM Press, Washington, DC, USA, 1361–1377 (2007).
  • von Linstow ML, Eugen-Olsen J, Koch A, Winther TN, Westh H, Hogh B. Excretion patters of human metapneumovirus and respiratory syncytial virus among young children. Eur. J. Med. Res.11, 329–335 (2006).
  • Mullins J, Erdman DD, Weinberg GA et al. Human metapneumovirus infection among children hospitalized with acute respiratory illness. Emerg. Infect. Dis.10, 700–705 (2004).
  • Sloots TP, Mackay IM, Bialasiewicz S et al. Human metapneumovirus, Australia, 2001–2004. Emerg. Infect. Dis.12, 1263–1266 (2006).
  • Chung JY, Han TH, Kim SW, Hwang ES. Respiratory picornavirus infections in Korean children with lower respiratory tract infections. Scand. J. Infect. Dis.39, 250–254 (2007).
  • Garcia-Garcia ML, Calvo C, Pérez-Breña P, De Cea JM, Acosta B, Casas I. Prevalence and clinical characteristics of human metapneumovirus infections in hospitalized infants in Spain. Pediatr. Pulmonol.41, 863–871 (2006).
  • Pierangeli A, Gentile M, Di Marco P et al. Detection and typing by molecular techniques of respiratory viruses in children hospitalized for acute respiratory infection in Rome, Italy. J. Med. Virol.79, 163–168 (2007).
  • Ebihara T, Endo R, Kikuta H et al. Human metapneumovirus infection in Japanese children. J. Clin. Microbiol.42, 126–132 (2004).
  • Percivalle E, Sarasini A, Visai L, Grazia Revello M, Gerna G. Rapid detection of Human metapneumovirus strains in nasopharyngeal aspirates and shell vial cultures by monoclonal antibodies. J. Clin. Microbiol.43, 3443–3446 (2005).
  • Landry ML, Ferguson D, Cohen S, Peret TCT, Erdman DD. Detection of Human metapneumovirus in clinical samples by immunofluorescence staining of Shell vial centrifugation cultures prepared from three different cell lines. J. Clin. Microbiol.43, 1950–1952 (2005).
  • Reina J, Ferres F, Alcoceva E, Mena A, de Gopegiu ER, Figuerola J. Comparison of different cell lines and incubation times in the isolation by the shell vial culture of human matapneumovirus from pediatric respiratory samples. J. Clin. Virol.40, 46–49 (2007).
  • Mackay IM, Jacob KC, Woolhouse D et al. Molecular assays for detection of human metapneumovirus. J. Clin. Microbiol.41, 100–105 (2003).
  • Côté S, Abed Y, Boivin G. Comparative evaluation of real-time PCR assays for detection of the human metapneumovirus. J. Clin. Microbiol.41, 3631–3635 (2003).
  • Greensill J, McNamara PS, Dove W et al. Human metapneumovirus in severe respiratory syncytial virus bronchiolitis. Emerg. Infect. Dis.9, 372–375 (2003).
  • Dare R, Sanghavi S, Bullotta A et al. Diagnosis of human metapneumovirus infections in immunosuppressed lung transplant recipients and children evaluated for pertussis. J. Clin. Microbiol.45, 548–552 (2007).
  • Maertzdorf J, Wang CK, Brown JB et al. Real-time reverse transcriptase PCR assay for detection of human metapneumovirus from all known genetic lineages. J. Clin. Microbiol.42, 981–986 (2004).
  • Kuypers J, Wright N, Ferrenberg J et al. Comparison of real-time PCR assays with fluorescent-antibody assays for diagnosis of respiratory virus infections in children. J. Clin. Microbiol.44, 2382–2388 (2006).
  • Scheltinga SA, Templeton KE, Beersma MFC, Claas ECJ. Diagnosis of human metapneumovirus and rhinovirus in patients with respiratory tract infections by an internally controlled multiplex real-time RNA PCR. J. Clin. Virol.33, 306–311 (2005).
  • Vallet S, Gagneur A, Talbot PJ, Legrand MC, Sizun J, Picard B. Detection of human coronavirus 229E in nasal specimens in large scale studies using an RT-PCR hybridization assay. Mol. Cell. Probes18, 75–80 (2004).
  • Falsey AR, Walsh EE, Hayden FG. Rhinovirus and coronavirus infection-associated hospitalization amoung older adults. J. Infect. Dis.185, 1338–1341 (2002).
  • Pene F, Merlat A, Vabret A et al. Coronavirus 229E-related pneumonia in immunocompromised patients. Clin. Infect. Dis.37, 929–932 (2003).
  • Simon A, Völz S, Höfling K et al. Acute life threatening event (ALTE) in an infant with human coronavirus HcoV-229E infection. Pediatr. Pulmonol.42, 393–396 (2007).
  • Treanor J, Falsey A. Respiratory viral infections in the elderly. Antivir. Res.44, 79–102 (1999).
  • Peiris MJS, Guan Y, Yuen KY. Severe acute respirtory syndrome. Nat. Med.12(Suppl.), S88–S97 (2004).
  • van der Hoek L, Pyrc K, Jebbink MF et al. Identification of a new human coronavirus. Nat. Med.10, 368–373 (2004).
  • Han TH, Chung JY, Kim SW, Hwang ES. Human coronavirus-NL63 infections in Korean children, 2004–2006. J. Clin. Virol.38, 27–31 (2007).
  • Forster J, Ihorst G, Rieger CH. Prospective population-based study of viral lower respiratory tract infections in children under years of age (the PRIDE study). Eur. J. Pediatr.163, 709–716 (2004).
  • Chiu SS, Chan KH, Chu KW et al. Human coronavirus NL63 infection and other coronavirus infections in children hospitalized with acute respiratory disease in Hong Kong, China. Clin. Infect. Dis.40, 1721–1729 (2005).
  • van der Hoek L, Sure K, Ihorst G et al. Croup is associated with the novel coronavirus NL63. Adv. Exp. Med. Biol.581, 485–491 (2006).
  • Esper F, Shapiro ED, Weibel C, Ferguson D, Landry ML, Kahn JS. Association between a novel human coronavirus and Kawasaki disease. J. Infect. Dis.191, 499–502 (2005).
  • Ebihara T, Endo R, Ma X, Ishiguro N, Kikuta H. Lack of assoctiation between New Haven coronavirus and Kawasaki disease. J. Infect. Dis.192, 351–352 (2005).
  • Kaiser L, Regamey N, Roiha H, Deffernez C, Frey U. Human coronavirus NL63 associated with lower respiratory tract symptoms in early life. Pediatr. Infect. Dis. J.24, 1015–1017 (2005).
  • Woo PC, Lau SK, Chu CM et al. Characterization and complete genome sequence of a novel coronavirus, coronavirus HKU1, from patients with pneumonia. J. Virol.79, 884–895 (2005).
  • Sloots TP, McErlean P, Speicher DJ, Arden KE, Nissen MD, Mackay IM. Evidence of human coronavirus HKU1 and human bocavirus in Australian children. J. Clin. Virol.35, 99–102 (2005).
  • Esper F, Weibel C, Ferguson D, Landry ML, Kahn JS. Coronavirus HKU1 infection in the United States. Emerg. Infect. Dis.12, 775–779 (2006).
  • Sizun J, Arbour N, Talbot PJ. Comparison of immunofluorescence with monoclonal antibodies and RT-PCR for the detection of human coronaviruses 229E and OC43 in cell culture. J. Virol. Methods72, 145–152 (1998).
  • Gerna G, Percivalle E, Sarasini A et al. Human respiratory coronavirus HKU1 versus other coronavirus infections in Italian hospitalized patients. J. Clin. Virol.38, 244–250 (2007).
  • Adachi D, Johnson G, Draker R et al. Comprehensive detection and identification of human coronaviruses, including SARS-associated coronavirus, with a single RT-PCR assay. J. Virol. Methods122, 29–36 (2004).
  • Lau SK, Woo PCY, Yip CCY et al. Coronavirus HKU1 and other coronavirus infections in Hong Kong. J. Clin. Microbiol.44, 2063–2071 (2006).
  • Mahony JB, Richardson S. Molecular diagnosis of severe acute respiratory syndrome (SARS) – the state of the art. J. Mol. Diagn.7, 551–559 (2005).
  • Fouchier RAM, Hartwig NG, Bestebroer TM et al. A previously undescribed coronavirus associated with respiratory disease in humans. Proc. Natl Acad. Sci. USA101, 6212–6216 (2004).
  • Moës E, Vijgen L, Keyaerts E et al. A novel pancoronavirus RT-PCR assay: frequent detection of human coronavirus NL63 in children hospitalized with respiratory tract infections in Belgium. BMC Infect. Dis.5, 6–12 (2005).
  • Esper F, Weibel C, Ferguson D, Landry ML, Kahn JS. Evidence of a novel human coronavirus that is associated with respiratory tract disease in infants and young children. J. Infect. Dis.191, 492–498 (2005).
  • Garbino J, Ccrespo S, Aubert JD et al. A prospective hospital-based study of the clinical impact of non-severe acute respiratory syndrome (non-SARS)-related human coronavirus infection. Clin. Infect. Dis.43, 1009–1015 (2006).
  • Esposito S, Bosis S, Niesters HGM et al. Impact of human coronavirus infections in otherwise healthy children who attended an emergency department. J. Med. Virol.78, 1609–1615 (2006).
  • Vabret A, Dina J, Gouarin S, Petitjean J, Corbet S, Freymuth F. Detection of the new human coronavirus HKU1: a report of 6 cases. Clin. Infect. Dis.42, 634–639 (2006).
  • De Souza Luna LK, Heiser V, Regamey N et al. Generic detection of coronaviruses and differentiation at the prototype strain level by reverse transcription-PCR and nonfluorescent low-density microarray. J. Clin. Microbiol.45, 1049–1052 (2007).
  • Allander T, Tammi MT, Eriksson M, Bjerkner A, Tiveljung-Lindell A, Andersson B. Cloning of a human parvovirus by molecular screening of respiratory tract samples. Proc. Natl Acad. Sci. USA102, 12891–12896 (2005).
  • Arnold JC, Singh KK, Spector SA, Sawyer MH. Human bocavirus: prevalence and clinical spectrum at a children’s hospital. Clin. Infect. Dis.43, 283–288 (2006).
  • Choi EH, Lee HJ, Kim SJ et al. The association of newly identified respiratory viruses with lower respiratory tract infections in Korean children, 2000–2005. Clin. Infect. Dis.43, 585–592 (2006).
  • Kesebir DM, Vazquez C, Weibel C et al. Human bocavirus infection in young children in the United States: molecular epidemiological profile and clinical characteristics of a newly emerging respiratory virus. J. Infect. Dis.194, 1276–1282 (2006).
  • Manning A, Russell V, Eastick K et al. Epidemiological profile and clinical associations of human bocavirus and other human parvoviruses. J. Infect. Dis.194, 1283–1290 (2006).
  • McIntosh K. Human bocavirus: developing evidence for pathogenicity. J. Infect. Dis.194, 1197–1199 (2006).
  • Allander T, Jartti T, Gupta S et al. Human bocavirus and acute wheezing in children. Clin. Infect. Dis.44, 904–910 (2007).
  • Smuts H, Hardie D. Human bocavirus in hospitalized children, South Africa. Emerg. Infect. Dis.12, 1457–1458 (2006).
  • Maggi F, Andreoli E, Pifferi M, Meschi S, Rocchi J, Bendinelli M. Human bocavirus in Italian patients with respiratory diseases. J. Clin. Virol.38, 321–325 (2007).
  • Sloots TP, McErlean P, Speicher DJ, Arden KE, Nissen MD, Mackay M. Evidence of human coronavirus HKU1 and human bocavirus in Australian children. J. Clin. Virol.35, 99–102 (2005).
  • Lu X, Chittaganpitch M, Olsen SJ et al. Real-time PCR assays for detection of bocavirus in human specimens. J. Clin. Microbiol.44, 3231–3235 (2006).
  • Payungporn S, Chieochansin T, Thongmee C, Panjaworayan N, Samransamruajkit R, Theamboolers A. Detection and discrimination of WU/KI polyomaviruses by real-time PCR with melting curve analysis. J. Virol. Methods153(1), 70–73 (2008).
  • Mueller A, Simon A, Gillen J et al. Polyomaviruses KI and WU in children with respiratory tract infection. Arch. Virol.154(10), 1605–1608 (2009).
  • Babakir-Mina M, Ciccozzi M, Alteri C et al. Excretion of the novel polyomaviruses KI and WU in the stool of patients with hematological disorders. J. Med. Virol.81(9), 1668–1673 (2009).
  • Lindau C, Tivelijung-Lindell A, Goh S, Ramqvist T, Allander T. A single-tube, real-time PCR assay for detection of the two newly characterized human KI and WU polyomaviruses. J. Clin. Virol.44(1), 24–26 (2009).
  • Neske F, Blessing K, Pröttel A, Ullrich F, Kreth HW, Weissbrich B. Detection of WU polyomavirus DNA by real-time PCR in nasopharyngeal aspirates, serum, and stool samples. J. Clin. Virol.44(2), 115–118 (2009).
  • Bergallo M, Costa C, Terlizzi ME et al. Quantitative detection of the new polyomaviruses KI, WU and Merkel cell virus in transbronchial biopsies from lung transplant recipients. J. Clin. Pathol. DOI: 10.1136/jcp.2010.077966 (2010) (Epub ahead of print).
  • Hormozdi DJ, Arens MQ, Le BM, Agapov E, Storch GA. KI polyomavirus detected in respiratory tract specimens from patients in St. Louis, Missouri. Pediatr. Infect. Dis. J.29(4), 329–333 (2010).
  • Fryer JF, Delwart E, Hecht FM et al. Frequent detection of the parvoviruses, PARV4 and PARV5, in plasma from blood donors and symptomatic individuals. Transfusion47, 1054–1061 (2007).
  • Jones MS, Kapoor A, Lukashov VV, Simmonds P, Hecht F, Delwart E. New DNA Viruses indentified in patients with acute viral infection syndrome. J. Virol.79, 8230–8236 (2005).
  • Manning A, Willey SJ, Bell JE, Simmonds P. Comparison of tissue distribution, persistence, and molecular epidemiology of parvovirus B19 and novel human parvoviruses PARV47 and human bocavirus. J. Infect. Dis.195, 1345–1352 (2007).
  • Mahony JB, Blackhouse G, Babwah, J et al. Cost analysis of multiplex PCR testing for diagnosing respiratory virus infections. J. Clin. Microbiol.47, 2812–2817 (2009).

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