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In Very Young Infants Severity of Acute Bronchiolitis Depends On Carried Viruses

Ethics statement

This study was conducted according to the principles expressed in the Declaration of Helsinki. The French North West I Hospital Ethics Committee (Comité de Protection des Personnes “Nord-Ouest I”, University Hospital, Rouen, France) approved the research study. All patients provided written informed consent for the collection of samples and subsequent analysis.

A prospective multicentre study was conducted in infants hospitalized for a first episode of acute bronchiolitis during three epidemic seasons (November to March 2002–2004). Four pediatric centers in a same geographical location (North West of France) participated in the study. Inclusion criteria were as follows: Infants aged from 1 month to 1 year, requiring hospitalization for a first episode of acute bronchiolitis. The diagnosis was based on dyspnea and wheezing or crackles associated with lung hyperinflation on chest X-ray. Exclusion criteria were any administration of steroids, history of wheezing, or underlying disease susceptible to modify the natural outcome (immunodeficiency, chronic lung disease, cystic fibrosis, congenital heart disease etc.). Medical history and demographic data were collected. Atopy was defined by asthma, allergic rhinitis or eczema in first degree relatives, or by eczema in infants. Diagnosis and severity of bronchiolitis were first established in the Pediatric Emergency Department, where the decision to be hospitalized was made. The severity of the disease was assessed with SaO2%, a clinical score, the duration of oxygen requirement, and the length of hospitalization. The clinical score associated standard criteria previously described, (Table 1). Each item was scaled from 0 to 1 and the score varied from 0 to 18. Because the disease could worsen after admission, the infant was further scored daily. The highest score observed during the hospitalization was retained for determining the severity of the disease. The discharge of the patient was based on the following criteria: SaO2%≥95%, normal respiratory rate (RR≤47/min for infants aged <2 mo, and ≤42/min when older) and no alteration in feeding during the past 24 h nor other complications directly related to the bronchiolitis. The length of the hospitalization was calculated as the time between the admission and the validation of the discharge criteria. Any prolonged hospitalization for other reasons was therefore not taken into account. The Rouen Hospital Ethics Committee approved the research study and informed consent was obtained from the parents.

Detection of viruses

Antigens for RSV, influenza virus A and B, parainfluenza type 1, 2, and 3, and adenovirus were detected by direct immunofluorescence assay (DFA) from nasopharyngeal aspiration (NPA) samples, employing commercial monoclonal antibodies conjugated with fluorescein isothiocyanate (IMAGEN, Dako, Denmark). A positive result was indicated by DFA, and to the finding of at least one cell showing a typical fluorescence pattern, provided that at least 20 respiratory cells were available in the sample. All the samples were further analyzed by using molecular methods including four multiplex RT-PCR, as previously described, and an adenovirus PCR (Adenovirus Consensus®, Argene). The multiplex PCR targeted 14 respiratory viruses: RSV, influenza viruses A, B and C, hMPV, parainfluenza viruses (PIV) types 1, 2, 3, 4, RV, enterovirus (EV), human coronavirus OC43, 229E and NL63. The molecular methods allowed us to confirm the presence of the viruses which were detected by the DFA, and to find viruses that were not included in the DFA.

Statistical analysis

Pairwise correlation among the SaO2%, clinical score, length of oxygen supply, demographic data and hospitalization were assessed using Spearman's rank test (Rho). For nominal variables, namely virus groups, a Kruskall-Wallis or a Mann–Whitney's test were also used. Univariate analyses were performed to assess the association between these variables and severity criteria. Severity was then analyzed as nominal variables using for clinical score, length of oxygen supplementation and hospitalization the 50th percentile, and for SaO2% the significant hypoxemia threshold of 92%. Multivariate analyses were performed by using stepwise logistic regression to select variables independently associated with the virus-related severity. A Chi-2 test, and Fischer's test if required, was applied for the qualitative analyses. In all the analyses, a value of p<0.05 was considered statistically significant. The data were displayed as median and 25th–75th quartiles. The statistical analyses were performed using Statview 5.0 (SAS Institute Inc., Cary-NC CA).

Severity and infant characteristics

The clinical score, length of oxygen supplementation and duration of hospitalization were significantly correlated to each other: score and duration of oxygen supplementation (Rho = 0.482, p<0.0001); score and length of hospitalization (Rho = 0.393, p<0.0001); duration of oxygen supplementation and hospitalization (Rho = 0.527, p<0.0001). The age was inversely correlated with the length of hospitalization (Rho = −0.296, p<0.0001). The girls had an higher clinical score than the boys: 6 [4–8] vs. 5 [4–7] p<0.036; the infants with a history of family atopy had a lower clinical score (5 [4–7] vs. 7[5–9], p = 0.002) and required a shorter time of oxygen supplementation (2[0–4]d vs. 1[0–3]d, p = 0.009). Passive tobacco exposure was associated with a longer duration of hospitalization: 5[4–8] vs. 5 [3–6], p = 0.004.

Severity by type of virus

The dichotomous analysis by identified virus is displayed in Table 3. The univariate logistic regression showed that to carry RSV increased the risk to have a clinical score >6 (OR = 2.4[1.1–4.3]95%CI), oxygen supplementation (OR = 2.5[1.28–4.97] 95%CI) and hospitalization>5 d (OR = 6.2[2.99–12.80]95%CI). To carry RV decreased the risk to be hospitalized>5 d (OR = 0.43[0.23–0.83]95%CI) and hypoxemic at the admission (OR = 0.17[0.13–0.99]95%CI). The presence of hMPV lowered the risk to be hospitalized>5 d (OR = 0.33[0.11–0.96] 95%CI) and increased the risk to have SaO2%≤92% at the admission (OR = 5.88[1.98–16.9]95%CI).

Severity and single or dual viral infection

The large variety of viruses and viral co-infections found restricted the analyses to RSV alone, RV alone, dual RSV/RV infection, and hMPV alone, the other groups being too small (Table 2). For this subpopulation, the clinical score was 6[4–7], SaO2% was 95[92.5–97]% length of O2 supplementation and hospitalization were 1[0–3] day and 5[4–7] days, respectively. There was a significant difference in the severity between RV, RSV, RV/RSV and hMPV as shown in Table 4 and Figure 1. Compared to RSV, infants with RV had a lower risk to present a severe disease as regards being supplied with oxygen (OR = 0.29[0.09–0.90]95%CI) and to stay >5 days (OR = 0.11[0.03–0.37]95%CI). This was also observed for hMPV with a lower risk to be hospitalized>5 days (OR = 0.09[0.019–0.53]95%CI). Conversely, the risk to have SaO2%≤92% at admission tended to increase in hMPV compared with RSV and RSV/RV bronchiolitis: OR = 4[1.0–16.7]95%CI and OR = 14.2[1.92–100]95%CI, respectively. All the infants suffering from RV bronchiolitis had SaO2%>92%, preventing the calculation of odds ratio. The multivariate analyses including the need for oxygen, clinical score, SaO2% and age showed that only the risk to stay <5 days decreased in RSV/RV (OR = 0.26[0.09–0.76]95%CI), RV (OR = 0.13[0.03–0.57]95%CI) and hMPV (OR = 0.09[0.01–0.69] 95%CI) compared with RSV bronchiolitis.


The availability of multiplex RT amplification reactions has modified our knowledge as regards the viral epidemiology of the winter bronchiolitis, where RSV has for a long time been considered the unique etiologic agent. It is now well established that rhinoviruses and human metapneumoviruses have also been involved in infantile bronchiolitis. However, the phenotypes as regards these new viruses should to be clarified, as the available data still remain controversial. In the present study, by analyzing various severity criteria, we showed that RSV remained the most aggressive agent in young infants, and conversely RV caused less severe bronchiolitis. Furthermore, dual RSV/RV infection did not aggravate the severity of illness, tending to be more moderate than RSV related bronchiolitis. In addition, hMPV bronchiolitis has been distinguished by a more marked hypoxemia at the admission.

The use of molecular amplification reaction was expected to achieve a better viral detection, which ranged from 70.5% to 96.1% in comparable studies,,,,. In agreement with our previous reported experience, the high rate of virus detected (94.7%) in this study underlined the various viral etiologies during the RSV epidemic season in very young infants with acute bronchiolitis. Dual RSV/RV infection was shown as the second cause of bronchiolitis, while RSV remained the first and, RV and hMPV the third and fourth respectively. The prevalence of RSV, RV and hMPV was indeed comparable to other studies,,,,, but we conversely found no difference in the age of the infants as regards the viruses involved. On the other hand, the seldom detection of parainfluenza virus or influenza A virus could be explained respectively by the recruitment restricted to the winter season and the very young age of the infants. The other viruses that were encountered were frequently found among various combinations of co-infection. Lastly, bocaviruses, prevalent viruses in acute bronchiolitis, were not researched in this series. However, its pathogenicity was to date uncertain, as it is mainly detected in coinfection.

We chose to enroll only hospitalized infants with a first acute bronchiolitis, with no underlying disease and no previous treatment in the way to respect the natural history. In this selected very young population, the distribution of the viruses allowed comparing infants with four different viral carriages: RSV alone, RV alone, hMPV alone and dual RSV/RV infection. Interestingly, the infants with RV had a less severe disease than those who carried either RSV alone or dual RSV/RV infection. Furthermore, they recovered quickly with a shorter stay in hospital. This result was contrary to the previously reported series from Papadopoulos et al

[3]. These authors established that RV caused a 5.6 fold risk to be included in a high risk group defined by a clinical score above the 50th percentile, and an earlier admission in the emergency unit. In our study, 56% of RSV infants and only 33% of RV had a score above this threshold and the infants with RV bronchiolitis presented at a later stage of the disease than the RSV infants. In addition, these authors found a difference in age and weight as regards the virus carried. Therefore, the discrepancies between both studies may likely be explained by the different population enrolled, and the clinical assessment of severity. More recently, Richard et al.

[5] reported no difference in the distribution of RV or RSV among young infants hospitalized either in short term unit or PICU. Mansbach et al.

[19] observed a better outcome for infants with RV bronchiolitis in Emergency Departments, and RSV was in other series identified as the more causative aggressive agent,. Lastly, hMPV bronchiolitis featured a more initial hypoxemic disease without worsening the further outcome, as they differed in a shorter hospital stay from RSV but not from RV or RSV/RV illness. This associated hypoxemia was also observed by Mullins et al.

[21] but not reported in other studies,.

The statement of viral co-infections in acute bronchiolitis raised the question of a cumulative pathogenic effect and consequently a more severe disease, although other hypotheses as successive infections or healthy carriage might be also supported. In this study, the clinical severity of dual RSV/RV infection was comparable to that observed with RSV, but differed in a shorter duration of hospitalization in the coinfected infants. This underlined that RSV remains the most aggressive virus on the bronchi, and masked a clinical relevant additional effect of RV, in agreement with previous reports,,. The other co-infections were not analyzed, because of the small number of infants in each category. Among the coinfections, the comparison of RSV and dual hMPV/RSV lower respiratory tract infection has been the most studied, and was associated with either no greater severity, or an increased risk to undergo mechanical ventilation. Richard et al.

[5] also reported that any dual viral infection conferred a 2.7- fold increase in the risk to be admitted in PICU for ventilator assistance. This studied population was however characterized by a high proportion of premature newborns or history of underlying chronic illness and the assessment of the severity differed completely.

The young age has been established as one of the most relevant risk factors in RSV bronchiolitis. Commonly detected in infants younger than those who carried RV, or hMPV,, RSV-associated severity was suggested therefore to be related to a younger age. Although the age was strongly correlated with the duration of hospitalization, this hypothesis was not supported in our study, as the infants forming each viral subgroup were aged in a similar range. In addition, we found a slight increase of clinical severity in the girls, a longer time of hospitalization due to tobacco exposure and a protective effect of family history of atopy, which was also observed by Bradley et al.

[27]. The multivariate analysis confirmed that the type of virus involved in the infection influenced independently the length of hospitalization. Other known virus-related risk factors of severity were not studied in this series, as well as the viral load, the host dependent or virus-related inflammatory response.

In conclusion, the severity of a first acute episode of bronchiolitis in very young infants depends on the causative agents. Although RSV remains the main concern in this frequent respiratory illness, the prevalence of dual RSV/RV and RV infection is high and permitted to reconsider the use of corticosteroids. However, proposing new management implies the routine use of RT molecular amplification, which is currently the only tool to easily target the detection of rhinoviruses, but would include an increasing cost in the investigations.