Acute bronchiolitis (AB) is a leading cause of hospitalization in children during their first year of life and is responsible for over 120,000 annual hospitalizations in developed countries (1). The morbidity for AB is even greater in developing countries (2). Ecological studies show that the hospitalization rates for AB have been increasing in recent decades (3). In Brazil, the prevalence of bronchiolitis is high, and hospitalization rates are increasing, according to an analysis of government data (4,5).

Respiratory syncytial virus (RSV) is the main etiological agent of AB and is responsible for up to 90% of cases during the RSV season. RSV can be identified in nasopharyngeal secretions using an immunofluorescence assay, culture, or molecular biology techniques. According to international clinical guidelines, these etiological tests are not required for the diagnosis of bronchiolitis, as the diagnosis can be made based on the clinical and epidemiological findings (6,7). Conversely, the influence of the etiological investigation on the therapeutic approach remains unclear in hospitalized patients with a clinical diagnosis of bronchiolitis. Although the recommended therapy consists of supportive measures, such as oxygen therapy for hypoxemic patients, hydration and maintaining an open airway, systemic antibiotics are often used in patients with AB, as are corticosteroids and bronchodilators (7,8). The request for etiological tests varies widely, and the influence of the results of such tests on drug prescription is rarely reported. A recent systematic review selected four studies that enrolled children from emergency departments. It suggested that viral test results may be associated with a reduction of antibiotic use, but the statistical power of the review was small because of the number of studies (9). Inpatient data are even scarcer. A retrospective study reported a reduced time of antibiotics use among those children who were found to be positive for RSV (10).

This study examines the hypothesis that an etiological diagnosis that is based on the results of an immunofluorescence assay (IFA), which is an accessible and affordable method, may help guide the treatment of AB, thereby reducing the use of systemic antibiotics. This study differs from previous investigations due to the analysis of the impact of viral testing results on the medical management of hospitalized infants.

A historical cohort study was conducted on hospitalized infants in the Pediatric Clinic Division of the University Hospital at São Paulo University between January 2006 and December 2007. This service provides regionalized care to approximately 400,000 inhabitants of the western region of São Paulo. According to the hospital policy, infants diagnosed with a lower respiratory tract infection upon admission undergo nasopharyngeal aspirate (NPA) collection for respiratory virus screening. A commercial kit (Biotrin International Ltd., Dublin/Ireland) is used for the indirect IFA, which is standardized for the identification of seven respiratory viruses (RSV, adenovirus, influenza A and B, and parainfluenza 1, 2, and 3) and is used according to the manufacturer's instructions.

Only infants with the following criteria were included in this study: 12 months of age or younger, a diagnosis of bronchiolitis upon hospital discharge (according to the International Classification of Diseases-9 and regardless of other secondary diagnosis) and NPA collected within the first day of hospitalization. Infants who presented the following findings were excluded from the study: heart diseases, chronic pulmonary diseases, prematurity (less than 37 weeks of gestation), neuropathies, genetic syndromes, immunodeficiencies, congenital airway malformations and recurrent episodes of wheezing. The patients' medical records were analyzed by completing a standardized protocol, including the collection of demographic data, clinical findings, laboratory tests/chest X-ray on admission and during the hospitalization and drug prescriptions. The information on viral screening was collected from physicians' notes, which systematically included the test result, date, and time. We have considered the time of writing as the moment at which the physician became aware of the result. The other laboratory tests, clinical features, and diagnoses were also collected from the physicians' notes. The dates of hospitalization and discharge were obtained from the informatics system. Information regarding the date and time at which drug and oxygen therapy were started and stopped was collected from prescription records, and the prescriptions were considered to have been effectively administered according to the nurse validation. In accordance with standard procedures, changes to routine prescriptions were made after discussion with the medical staff during daily rounds. Changes in prescriptions that were made within 24 hours of the recording of the viral screening results were considered to be associated with these results.

This study was approved by the IRB of the University Hospital of the School of Medicine, University of São Paulo.

Among 1,199 infants admitted to our hospital, 852 (71%) were diagnosed with acute respiratory tract disease, and of these, 283 (33%) met the criteria required for inclusion in this study. Thirty-three infants were excluded according to the previously defined criteria. Twenty cases could not be analyzed due to incomplete data in their medical records. Therefore, 230 medical records were studied (Figure 1).

Figure 1.

Flow chart of the patients selected for this study.

(0.04MB).

The mean age of the infants was four months (sd = 2.7). There was a slight predominance of males (n = 129; 56%). The highest incidence of AB and RSV identification occurred between February and July.

The main diagnosis on admission to the hospital was acute bronchiolitis (n = 65; 72%). Blood was collected for culture for aerobic and anaerobic bacteria in 149 (65%) cases, and bacterial growth was observed in three (2%) of them (DNase-negative Staphylococcus, Pseudomonas sp. and Streptococcus viridans). All of these patients were treated with antibiotics.

The medications most often prescribed upon hospital admission were beta-agonist inhalers, systemic corticosteroids and systemic antibiotics. The antibiotics most commonly prescribed were intravenous penicillin (n = 51; 40.5%) and oral amoxicillin (n = 29; 23.1%). Other antibiotics prescribed were macrolides (n = 17; 13.5%), cefuroxime (n = 08; 6.2%), ceftriaxone (n = 4; 3.1%), combination oxacillin and amikacin (n = 11; 8.7%), penicillin and amikacin (n = 4; 3.2%) ceftriaxone and macrolide (n = 1; 0.8%) and ceftriaxone and oxacillin (n = 1; 0.8%). No follow-up laboratory tests or chest X-rays were requested before changes in the prescriptions were made. The results of the laboratory evaluation and monitoring of patients during their hospitalization are shown in Table 1. RSV was identified as the sole agent in 64% of patients (RSV(+) group; n = 146); no viruses could be identified in 28% of patients (VIRUS(-) group). Other viruses were identified in 8% (19 patients: parainfluenza 3 (n = 8), parainfluenza 1 (n = 2), adenovirus (n = 3), influenza A (n = 1), influenza B (n = 1), co-detection (n = 4). Due to the limited number of cases and the heterogeneity of the viral agents identified, this group was not included in the comparative analysis. The average time for the physician to become aware of the viral test results was 40 hours after admission. No significant differences in the frequency of drug prescription upon admission were observed between the patients in the VIRUS(-) and RSV(+) groups. Following the results of the viral screening, changes in medical prescriptions for drugs were most frequent in the RSV(+) group. These changes consisted mainly of the discontinuation of antibiotic therapy (Table 2). The time of antibiotic discontinuation was, on average, 7.2 hours after the viral test result was recorded in the medical records.

After the discontinuation of antibiotic therapy, two patients from the VIRUS(-) group required reintroduction of antibiotic therapy due to a worsening respiratory condition and radiological alterations. Two patients in the RSV(+) group also required the reintroduction of antibiotics (one due to the diagnosis of nosocomial pneumonia and the other due to acute otitis media). A sub-analysis was performed in which these four patients were included in the group with maintained antibiotic therapy, and the results revealed that the discontinuation of antibiotic therapy was also predominant in patients from the RSV(+) group (31.2% vs. 6.3%; p<0.001).

The introduction of antibiotic therapy upon admission to the hospital was associated with an age over 6 months, the presence of fever, thoracic radiography showing signs of opacification, diagnosis of acute otitis media (AOM) and pneumonia. After adjustment, according to the multivariate analysis, only the diagnoses of AOM and pneumonia were independent factors that predicted the introduction of antibiotic therapy (Table 3).

In the univariate analysis, the presence of RSV was the only variable associated with the discontinuation of antibiotic therapy. After adjustment for confounding factors, the etiological diagnosis of RSV remained the sole independent determinant of the discontinuation of antibiotic therapy (Table 4).

The etiological diagnosis of RSV infection using IFA was an independent factor associated with the discontinuation of antibiotic therapy, which, based on clinical findings, was prescribed upon admission to hospitalized infants with bronchiolitis. The results of respiratory virus screening had no impact on the use of bronchodilators and corticosteroids. The results of this study suggest that an etiological diagnosis is an objective and useful parameter in clinical practice for bronchiolitis treatment.

The high frequencies of the prescription of antibiotics (55%), bronchodilators (80%) and corticosteroids (52%) for the initial treatment of infants with bronchiolitis indicate the difficulty in promoting a therapeutic approach based on scientific evidence. As in this study, the practice of prescribing these drugs has also been reported in other countries, despite current clinical guidelines (7). However, the use of ineffective or controversial therapies exposes the patient to adverse effects. In a retrospective study of more than 17,000 children under the age of one who were hospitalized with bronchiolitis, the use of antibiotics, bronchodilators and corticosteroids (45% of patients) was associated with longer hospital stays (9). Additionally, the inappropriate use of antibiotics may increase the risk of bacterial resistance and the cost of hospitalization (12).

In this study, despite the high rate of antibiotic use, viral screening contributed to the suspension of antibiotic therapy in most cases and served as a valuable tool for the adjustment of medical management. After adjusting for other possible causes for the suspension of antibiotic therapy, especially those that were relevant for the introduction of therapy, such as the diagnosis of otitis and pneumonia, the presence of RSV remained the sole independent factor that influenced this change in the therapeutic approach. We observed that other repeated laboratorial and radiological tests were not considered important for this clinical decision because none of them were requested before the changes in the prescriptions were performed. The test used for virus identification is highly sensitive for RSV identification and is economically viable and easily performed for hospitalized patients. Its predictive value for RSV varies according to the epidemiological scenario, and it is higher during peak seasonal periods for the agent (13). Although its sensitivity is not as high for other possible agents, such as adenovirus and influenza virus, this test is useful for AB cases, given that RSV is the predominant etiological agent. A recent study has shown that the use of molecular techniques improves the viral test sensitivity to other agents, such as human rhinovirus, but it does not influence the detection of RSV in cases of bronchiolitis (14).

The viral test results were added to medical records during the second day of hospitalization, and the discontinuation of antibiotics occurred within the next few hours. This finding confirms the association between the physician's awareness of the results and a change in the drug prescription during the next round and suggests that the viral test is a useful tool at the beginning of hospitalization.

Information regarding the impact of the etiological investigation on the medical management of hospitalized patients with AB is scarce, although in the in-hospital environment, virus screening may be useful to reduce the rates of nosocomial virus infections (6). Previous findings also indicate some benefit of the use of viral screening in therapeutic practice. Byington et al. analyzed the impact of a rapid diagnostic test for respiratory viruses on antibiotic use in a children's hospital during two annual winter seasons. In the first season, virus detection was associated with shorter durations of intravenous antibiotic therapy (mean 2.4 vs. 4.0 days) and oral antibiotic therapy (0.25 vs. 2.5 days) and fewer discharge prescriptions of oral antibiotics (37% vs. 52%) compared with virus-negative patients. During the second season, virus detection was associated with lower rates of intravenous antibiotic prescription than in the first season (26% vs. 44%), suggesting that the virus test contributed for a more accurate management of AB at that hospital (10). A systematic review concluded that the current evidence is insufficient but promising regarding the usefulness of viral screening in reducing the use of antibiotics in the pediatric emergency department (9).

According to our results, the factors associated with the introduction of antibiotic therapy upon admission to the hospital were those that might suggest bacterial etiology. The antibiotic therapy was most often prescribed for patients over six months of age and for those with fever, which may suggest that the pediatricians were more confident in their initial diagnosis of viral bronchiolitis in infants in their first six months of life without fever. However, the etiological diagnosis of RSV allowed for suspension of antibiotic therapy, even in older infants and in the presence of fever. Although RSV can frequently cause pneumonia and AOM, these diagnoses were strong indicators for the prescription of antibiotics (15). Nonetheless, these factors did not influence the suspension of antibiotic therapy following a positive screening result for RSV. In the population selected for this study, the inclusion criteria were selective for bronchiolitis, which explains the low rate of positivity of the blood cultures (2%). Similar to these results, other studies have suggested that the occurrence of bacterial infection in infants with bronchiolitis is not common (16).

This study has some limitations due to its retrospective nature. The influence of the experience and qualification of the physician responsible for the medical management could not be assessed. However, according to routine procedures at the hospital, decisions regarding the medical management of infants with bronchiolitis were made by the medical staff, which is homogenous as a result of the high frequency of this disease and the staff's clinical and research experience in this field of study (17-19).

Even though IFA enables the diagnosis of other respiratory viruses, a statistical analysis of these cases could not be performed due to their low frequencies, the heterogeneity of the viral agents that we found and the fact that the medical management for other viral infections not caused by RSV could differ. Further studies with an appropriate casuistic are necessary to perform such an analysis.

We excluded patients with chronic diseases and prematurity to avoid distortions in the analysis because these comorbidities themselves influence antibiotic use. The number of such cases in a general hospital would not allow us to analyze them separately. Therefore, our results cannot be generalized to these patients. The obtained results also may not be extrapolated to outpatients. However, a systematic review suggested that viral screening as part of the emergency service for children with respiratory infections may be promising (9).

The results of this study suggest that the etiological diagnosis of RSV infection in hospitalized infants with bronchiolitis was independently associated with the discontinuation of antibiotic therapy. Affordable laboratory methods, such as the IFA, for the identification of viruses may help decrease inappropriate prescription of antibiotics for these infants. This may contribute to a more cost-effective approach and to a reduction in the inappropriate use of antibiotics for inpatients. Future prospective studies are needed to minimize the impact of bias and to confirm these results.