Assessment of blood enterovirus PCR testing in paediatric populations with fever without source, sepsis-like disease, or suspected meningitis: a prospective, multicentre, observational cohort study

Jérémy Lafolie, André Labbé, Anne Sophie L'Honneur, Fouad Madhi, Bruno Pereira, Marion Decobert, Marie Noelle Adam, François Gouraud, Frédéric Faibis, Francois Arditty, Stéphanie Marque-Juillet, Marie Aline Guitteny, Gisele Lagathu, Matthieu Verdan, Flore Rozenberg, Audrey Mirand, Hélène Peigue-Lafeuille, Cécile Henquell, Jean-Luc Bailly, Christine Archimbaud, Blood Enterovirus Diagnosis Infection (BLEDI) in paediatric population study team, Anne Chacé, Camille Corlouer, Jean-Christophe Mercier, Marie Cotillon, Fatma Magdoud El Alaoui, Ralph Epaud, Sylvie Nathanson, Aymeric Coutard, Emmanuelle Rochette, Amélie Brebion, Martine Chambon, Christel Regagnon, Loic De Pontual, Etienne Carbonnelle, Isabelle Poilane, Grégoire Benoist, Elyanne Gault, Véronique Millet-Zerner, Mathieu Kuentz, Serge Gallet, Valérie Macchi, Sarah Ducrocq, Serge Epelbaum, Christine Lambert, Albert Faye, Sophie Soudée-Mayer, Luigi Titomanlio, Stéphane Bonacorsi, Aurélie Cointe, Isabelle Cloix, Aina-Harintsoa Raobison, Morgane Boutry, Fabienne Tavani, Jérémy Lafolie, André Labbé, Anne Sophie L'Honneur, Fouad Madhi, Bruno Pereira, Marion Decobert, Marie Noelle Adam, François Gouraud, Frédéric Faibis, Francois Arditty, Stéphanie Marque-Juillet, Marie Aline Guitteny, Gisele Lagathu, Matthieu Verdan, Flore Rozenberg, Audrey Mirand, Hélène Peigue-Lafeuille, Cécile Henquell, Jean-Luc Bailly, Christine Archimbaud, Blood Enterovirus Diagnosis Infection (BLEDI) in paediatric population study team, Anne Chacé, Camille Corlouer, Jean-Christophe Mercier, Marie Cotillon, Fatma Magdoud El Alaoui, Ralph Epaud, Sylvie Nathanson, Aymeric Coutard, Emmanuelle Rochette, Amélie Brebion, Martine Chambon, Christel Regagnon, Loic De Pontual, Etienne Carbonnelle, Isabelle Poilane, Grégoire Benoist, Elyanne Gault, Véronique Millet-Zerner, Mathieu Kuentz, Serge Gallet, Valérie Macchi, Sarah Ducrocq, Serge Epelbaum, Christine Lambert, Albert Faye, Sophie Soudée-Mayer, Luigi Titomanlio, Stéphane Bonacorsi, Aurélie Cointe, Isabelle Cloix, Aina-Harintsoa Raobison, Morgane Boutry, Fabienne Tavani

Abstract

Background: Enteroviruses are the most frequent cause of acute meningitis and are seen increasingly in sepsis-like disease and fever without source in the paediatric population. Detection of enterovirus in cerebrospinal fluid (CSF) specimens by PCR is the gold standard diagnostic test. Our aim was to assess a method of detecting enterovirus in blood specimens by PCR.

Methods: We did a prospective, multicentre, observational study at 35 French paediatric and emergency departments in 16 hospitals. We recruited newborn babies (aged ≤28 days) and infants (aged >28 days to ≤2 years) with fever without source, sepsis-like disease, or suspected meningitis, and children (aged >2 years to ≤16 years) with suspected meningitis, who were admitted to a participating hospital. We used a standardised form to obtain demographic, clinical, and laboratory data, which were anonymised. Enterovirus PCR testing was done in blood and CSF specimens.

Findings: Between June 1, 2015, and Oct 31, 2015, and between June 1, 2016, and Oct 31, 2016, we enrolled 822 patients, of whom 672 had enterovirus PCR testing done in blood and CSF specimens. Enterovirus was detected in 317 (47%) patients in either blood or CSF, or both (71 newborn babies, 83 infants, and 163 children). Detection of enterovirus was more frequent in blood samples than in CSF specimens of newborn babies (70 [99%] of 71 vs 62 [87%] of 71; p=0·011) and infants (76 [92%] of 83 vs 62 [75%] of 83; p=0·008), and was less frequent in blood samples than in CSF specimens of children (90 [55%] of 163 vs 148 [91%] of 163; p<0·0001). Detection of enterovirus was more frequent in blood samples than in CSF specimens of infants aged 2 years or younger with fever without source (55 [100%] of 55 vs 41 [75%] of 55; p=0·0002) or with sepsis-like disease (16 [100%] of 16 vs nine [56%] of 16; p=0·008). Detection of enterovirus was less frequent in blood than in CSF of patients with suspected meningitis (165 [67%] of 246 vs 222 [90%] of 246; p<0·0001).

Interpretation: Testing for enterovirus in blood by PCR should be an integral part of clinical practice guidelines for infants aged 2 years or younger. This testing could decrease the length of hospital stay and reduce exposure to antibiotics for low-risk patients admitted to the emergency department with febrile illness.

Funding: University Hospital Clermont-Ferrand.

Copyright © 2018 Elsevier Ltd. All rights reserved.

Figures

Figure 1
Figure 1
Flow of enrolled patients CSF=cerebrospinal fluid. *Parents did not agree to participation of their child after reading the information leaflet. †PCR inhibitors were present either in blood (n=3) or in CSF (n=3) samples. Of those with PCR inhibitors in blood, two had negative CSF (one infant and one child) and one had positive CSF (newborn baby). Of those with PCR inhibitors in CSF, one had negative blood (infant) and two had positive blood (newborn baby and infant). Three patients had enterovirus infection. All six patients were excluded from the analysis.
Figure 2
Figure 2
Forest plot of multivariate analyses of the relation between enterovirus viraemia and clinical and biological characteristics of patients Analyses were done in patients (A) aged 2 years or younger and (B) aged 16 years or younger for whom both blood and CSF specimens were available. CSF=cerebrospinal fluid.

References

    1. de Ory F, Avellón A, Echevarría JE. Viral infections of the central nervous system in Spain: a prospective study. J Med Virol. 2013;85:554–562.
    1. Martin NG, Iro MA, Sadarangani M, Goldacre R, Pollard AJ, Goldacre MJ. Hospital admissions for viral meningitis in children in England over five decades: a population-based observational study. Lancet Infect Dis. 2016;16:1279–1287.
    1. Archimbaud C, Chambon M, Bailly JL. Impact of rapid enterovirus molecular diagnosis on the management of infants, children, and adults with aseptic meningitis. J Med Virol. 2009;81:42–48.
    1. Archimbaud C, Ouchchane L, Mirand A. Improvement of the management of infants, children and adults with a molecular diagnosis of enterovirus meningitis during two observational study periods. PLoS One. 2013;8:e68571.
    1. Harvala H, Broberg E, Benschop K. Recommendations for enterovirus diagnostics and characterisation within and beyond Europe. J Clin Virol. 2018;101:11–17.
    1. Alpern ER, Stanley RM, Gorelick MH. Epidemiology of a pediatric emergency medicine research network: the PECARN Core Data Project. Pediatr Emerg Care. 2006;22:689–699.
    1. Rittichier KR, Bryan PA, Bassett KE. Diagnosis and outcomes of enterovirus infections in young infants. Pediatr Infect Dis J. 2005;24:546–550.
    1. Byington CL, Taggart EW, Carroll KC, Hillyard DR. A polymerase chain reaction-based epidemiologic investigation of the incidence of nonpolio enteroviral infections in febrile and afebrile infants 90 days and younger. Pediatrics. 1999;103:E27.
    1. de Crom SC, Obihara CC, de Moor RA, Veldkamp EJ, van Furth AM, Rossen JW. Prospective comparison of the detection rates of human enterovirus and parechovirus RT-qPCR and viral culture in different pediatric specimens. J Clin Virol. 2013;58:449–454.
    1. de Jong EP, van den Beuken MGA, van Elzakker EPM. Epidemiology of sepsis-like illness in young infants: major role of enterovirus and human parechovirus. Pediatr Infect Dis J. 2018;37:113–118.
    1. Ahmad S, Dalwai A, Al-Nakib W. Frequency of enterovirus detection in blood samples of neonates admitted to hospital with sepsis-like illness in Kuwait. J Med Virol. 2013;85:1280–1285.
    1. Cordey S, L'Huillier AG, Turin L, Gervaix A, Posfay Barbe K, Kaiser L. Enterovirus and parechovirus viraemia in young children presenting to the emergency room: unrecognised and frequent. J Clin Virol. 2015;68:69–72.
    1. Antona D, Lévêque N, Chomel JJ, Dubrou S, Lévy-Bruhl D, Lina B. Surveillance of enteroviruses in France, 2000–2004. Eur J Clin Microbiol Infect Dis. 2007;26:403–412.
    1. Baraff LJ. Management of fever without source in infants and children. Ann Emerg Med. 2000;36:602–614.
    1. European Medicines Agency Report on the Expert Meeting on neonatal and paediatric sepsis. Dec 16, 2010.
    1. Kestenbaum LA, Ebberson J, Zorc JJ, Hodinka RL, Shah SS. Defining cerebrospinal fluid white blood cell count reference values in neonates and young infants. Pediatrics. 2010;125:257–264.
    1. Dierssen U, Rehren F, Henke-Gendo C, Harste G, Heim A. Rapid routine detection of enterovirus RNA in cerebrospinal fluid by a one-step real-time RT-PCR assay. J Clin Virol. 2008;42:58–64.
    1. Mirand A, Henquell C, Archimbaud C. Prospective identification of enteroviruses involved in meningitis in 2006 through direct genotyping in cerebrospinal fluid. J Clin Microbiol. 2008;46:87–96.
    1. Terwee CB, Bot SDM, de Boer MR. Quality criteria were proposed for measurement properties of health status questionnaires. J Clin Epidemiol. 2007;60:34–42.
    1. National Institute for Health and Care Excellence Fever in under 5s: assessment and initial management—clinical guideline (CG160) August, 2017.
    1. Dagan R, Jenista JA, Prather SL, Powell KR, Menegus MA. Viremia in hospitalized children with enterovirus infections. J Pediatr. 1985;106:397–401.
    1. Cheng H-Y, Huang Y-C, Yen T-Y. The correlation between the presence of viremia and clinical severity in patients with enterovirus 71 infection: a multi-center cohort study. BMC Infect Dis. 2014;14:417.
    1. Santé Publique France Point sur les infections à entérovirus au 9 décembre 2016. Dec 9, 2016.
    1. Harvala H, Griffiths M, Solomon T, Simmonds P. Distinct systemic and central nervous system disease patterns in enterovirus and parechovirus infected children. J Infect. 2014;69:69–74.
    1. Volle R, Bailly J-L, Mirand A. Variations in cerebrospinal fluid viral loads among enterovirus genotypes in patients hospitalized with laboratory-confirmed meningitis due to enterovirus. J Infect Dis. 2014;210:576–584.
    1. Sharp J, Harrison CJ, Puckett K. Characteristics of young infants in whom human parechovirus, enterovirus or neither were detected in cerebrospinal fluid during sepsis evaluations. Pediatr Infect Dis J. 2013;32:213–216.
    1. Dagan R, Menegus MA. Replication of enteroviruses in human mononuclear cells. Isr J Med Sci. 1992;28:369–372.
    1. Vuorinen T, Vainionpää R, Heino J, Hyypiä T. Enterovirus receptors and virus replication in human leukocytes. J Gen Virol. 1999;80:921–927.
    1. Calvo C, Gallardo P, Torija P. Enterovirus neurological disease and bacterial coinfection in very young infants with fever. J Clin Virol. 2016;85:37–39.

Source: PubMed

Patrocinadores e Colaboradores

Condições médicas

Intervenções de drogas

3
Se inscrever