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Inicio Enfermedades Infecciosas y Microbiología Clínica (English Edition) Age distribution of acute respiratory infections caused by enteroviruses in the ...
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Vol. 35. Núm. 9.
Páginas 608-609 (noviembre 2017)
Vol. 35. Núm. 9.
Páginas 608-609 (noviembre 2017)
Scientific letter
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Age distribution of acute respiratory infections caused by enteroviruses in the child population
Distribución etaria de las infecciones respiratorias agudas causadas por los enterovirus en la población infantil
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1825
Jordi Reinaa,
Autor para correspondencia
jorge.reina@ssib.es

Corresponding author.
, María Cabrerizob
a Unidad de Virología, Servicio de Microbiología, Hospital Universitario Son Espases, Palma de Mallorca, Balearic Islands, Spain
b Centro de Referencia de Enterovirus, Centro Nacional de Microbiología, Majadahonda, Madrid, Spain
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Tablas (1)
Table 1. Age distribution of respiratory infections due to enterovirus.
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Dear Editor,

Acute respiratory infections (ARI) are an entity that primarily affects the child patient population. Out of all the different viruses involved here, the enteroviruses (EV) have been reported to have an incidence of 3–7 per cent.1,2 EVs are transmitted through the fecal-oral route, and they can be sporadic or community outbreaks. We attribute them their etiologic participation in the ARIs of the upper (rhinitis and pharyngitis) and lower respiratory tracts (bronchiolitis, bronchitis, and pneumonia).1–3

Although their preference for child age is widely known (<15 years old) probably due to their scant immunity, there are very few studies establishing a correlation between age of presentation and type of EV found.4–6

We hereby present a retrospective study on the age distribution of ARIs due to EVs in the child patient population in the Balearic Islands, Spain. During the study period, November 2015 through June 2016, one respiratory sample was collected from all children presenting to the ER with clinical suspicion of ARI.

Viral detection took place using one real time RT-PCR genomic amplification technique capable of detecting both simultaneously and differentially 16 different types of viruses (Allplex® Respiratory Full Panel Assay; Seegen, South Korea). This technique allows us to distinguish between enteroviruses and rhinoviruses, but it won’t help typing the different kinds of enteroviruses that exist. The samples that tested positive for enterovirus were taken to the National Center of Microbiology (Madrid, Spain) for the ultimate typing process.

Across the study 2754 samples were analyzed, out of which 1461 (53 per cent) tested positive. In this period, we found 115 cases of ARIs due to EV, which amounts to 4.1 per cent of all the samples collected, and 7.8 per cent of the ones that tested positive. The Echovirus was responsible for 17.3 per cent of the infections, the Coxsackievirus type A of 33 per cent of the ARIs, the Coxsackievirus type B of 9.5 per cent, the EV-D68 of 33 per cent of the infections, and the EV-A71 of 6.9 per cent of all the ARIs (Table 1). Twenty (20) different types of viruses were found being the following ones the most common of all: EV-D68 (38 cases – 33 per cent), Coxsackievirus A6 (14 cases – 12.1 per cent), EV-A71 (8 cases – 6.9 per cent), and Coxsackievirus A10 (8 cases – 6.9 per cent).

Table 1.

Age distribution of respiratory infections due to enterovirus.

  Echo  CoxA  CoxB  D68  A71  Total 
<18 (53.3)a  1 (6.6)  1 (6.6)  5 (33.3)  15 (13) 
1–64 (36.3)  6 (54.5)  1 (9)  11 (9.5) 
6–122 (5.2)  19 (50)  5 (13.1)  8 (21)  4 (10.5)  38 (33) 
12–242 (8.6)  10 (43.4)  2 (8.6)  7 (30.4)  2 (8.6)  23 (20) 
2–44 (23.5)  6 (35.2)  1 (5.8)  5 (29.4)  1 (5.8)  17 (14.7) 
>42 (18.1)  2 (18.1)  7 (63.6)  11 (9.5) 
  20 (17.3)  38 (33)  11 (9.5)  38 (33)  8 (6.9)  115 

Echo: Echovirus; CoxA: Coxsackievirus type A; CoxB: Coxsackievirus type B; D68: EV-D68; A71: EV-A71.

a

Number of cases (percentage on the total number of cases).

The patients’ main clinical presentations were: cold (44.3 per cent); bronchiolitis (20 per cent); pharyngotonsillitis (10.5 per cent); bronchitis (9.5 per cent); bronchospasm (9.5 per cent); and pneumonia (6 per cent).

22.6 per cent of the cases debuted <6 months old, 55.6 per cent >1 year old, and 75.6 per cent <2 years old (Table 1). Fifteen (15) cases were found in the neonatal stage, most of them due to Echovirus and EV-D68. Fifty-three (53) per cent of the cases were found between 6 and 24 months old. Sixty (60) per cent of Echoviruses were found <6 months old, 50 per cent of Coxsackieviruses type A between 6 and 12 months old, 45.4 per cent of Coxsackieviruses type B between 6 and 12 months old, 50 per cent of EV-D68 <12 months old, and 50 per cent of EV-A71 between 6 and 12 months old.

The average age of patients with Echovirus was 12.7 months old (range: 17 days–4 years), the average age of those with Coxsackievirus type A, 21.5 months old (range: 14 days–5 years), the average age of patients with Coxsackievirus type B, 30.8 months old (range: 1 month–9 years), that of patients with EV-D68, 32.4 months old (range: 1 month–9 years), and the average age of patients with EV-A71, 17 months old (range: 5 months–3 years).

We were able to confirm that Echoviruses are predominant during the neonatal stage and in patients under 6 months old. However, both types of Coxsackieviruses were predominant in patients between 6 and 24 months old (31.3 per cent).

The predominance of a given EV in the different age groups varies depending on the circulation of such virus. Thus, in the period that goes from 2010 to 2013, in our country, most neonatal infections were due to Coxsackievirus type A (83 per cent),4 but today it seems that the predominant viruses are different types of Echoviruses.

Also, the EV-D68 is the most highly detected virus in patients under 6 months old (54.5 per cent), although very homogeneous distributions have been confirmed in the remaining ages. However, something consistent with other studies7 is the fact that this virus has been the predominant virus in patients >5 years old (63.6 per cent). Unlike other studies,8 when it comes to EV-A71, 62.5 per cent of the patients were <1 year old.

We have been able to confirm that EVs preferably affect patients under 15 years old because in this same period we confirmed three (3) cases in adult patients only. This is why we should take their participation into account not only in the ARIs of these patients, but in most fever syndromes without a focus. The distribution of the different types of viruses shows a certain preference for certain age segments, specially Echoviruses.

References
[1]
M.A. Pallansch, M.S. Oberste, J.L. Whitton.
Enteroviruses: Polioviruses, Coxsackieviruses, Echoviruses and newer Enteroviruses.
Fields virology, 6th ed., pp. 490-530
[2]
J.J. Dunn.
Enteroviruses and paraechoviruses.
[3]
S.C. de Crom, J.W. Rossen, A.M. van Furth, C.C. Obihara.
Enterovirus and paraechovirus infection in children: a brief overview.
Eur J Pediatr, 175 (2016), pp. 1023-1029
[4]
M. Cabrerizo, M. Díaz-Cerio, C. Muñoz-Almagro, N. Rabella, D. Tarragó, M.P. Romero, et al.
Molecular epidemiology of enterovirus and parechovirus infections according to patient age over a 4-year period in Spain.
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[5]
L. Molet, K. Saloum, S. Marque-Juillet, A. Garbarg-Chenon, C. Henquell, I. Schuffenecker, et al.
Enterovirus infections in hospitals of IIe de France region over 2013.
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J. Reina, M. Cabrerizo, F. Aliaga.
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Semin Respir Crit Care Med, 37 (2016), pp. 578-585
[8]
P.C. Chang, S.C. Chen, K.T. Chen.
The current status of the disease caused by enterovirus 71 infections: epidemiology, pathogenesis, molecular epidemiology and vaccine development.
Int J Environ Res Public Health, 13 (2016),
doi:10.3390/ijerph13090890

Please cite this article as: Reina J, Cabrerizo M. Distribución etaria de las infecciones respiratorias agudas causadas por los enterovirus en la población infantil. Enferm Infecc Microbiol Clin. 2017;35:608–609.

Copyright © 2017. Elsevier España, S.L.U. and Sociedad Española de Enfermedades Infecciosas y Microbiología Clínica
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