key: cord-1052461-74v3znsj authors: O'Grady, Kerry‐Ann F.; Grimwood, Keith; Sloots, Theo P.; Whiley, David M.; Acworth, Jason P.; Phillips, Natalie; Marchant, Julie; Goyal, Vikas; Chang, Anne B. title: Upper airway viruses and bacteria and clinical outcomes in children with cough date: 2016-07-26 journal: Pediatr Pulmonol DOI: 10.1002/ppul.23527 sha: 8a2e728f2ca1d1bb46d366413cb028062a5bfa06 doc_id: 1052461 cord_uid: 74v3znsj Background: Cough is symptomatic of a broad range of acute and chronic pediatric respiratory illnesses. No studies in children have tested for an extended panel of upper airway respiratory viruses and bacteria to identify whether they predict cough outcomes, irrespective of clinical diagnosis at the time of acute respiratory illness (ARI). We therefore determined whether upper airway microbes independently predicted hospitalization and persistent cough 28‐days later in children presenting with an ARI, including cough as a symptom. Methods: A cohort study of children aged <15‐years were followed for 28‐days after presenting to a pediatric emergency department with an ARI where cough was also a symptom. Socio‐demographic factors, presenting clinical features and a bilateral anterior nasal swab were collected at enrolment. Polymerase chain reaction assays tested for seven respiratory bacteria and 17 viruses. Predictors of hospitalization and persistent cough at day‐28 were evaluated in logistic regression models. Results: Eight hundred and seventeen children were included in the analysis; median age 27.7‐months. 116 (14.2%, 95%CI 11.8, 16.6) children were hospitalized and 163 (20.0%, 95%CI 17.2, 22.7) had persistent cough at day‐28. Hospitalized children were more likely to have RSV A or B detected on nasal swab than those not admitted (adjusted relative risk (aRR) 1.8, 95%CI 1.0, 3.3). M. catarrhalis was the only microbial difference between children with and without cough persistence (aRR for those with cough at day 28: 2.1, 95%CI 1.3, 3.1). Discussion: An etiologic role for M. catarrhalis in the pathogenesis of persistent cough post‐ARI is worth exploring, especially given the burden of chronic cough in children and its relationship with chronic lung disease. Pediatr Pulmonol. 2017;52:373–381. © 2016 Wiley Periodicals, Inc. The complexity of the upper airway microbiota and its association with acute respiratory infections (ARI) in children continue to present challenges worldwide, particularly determining pharmacologic strategies to prevent and treat disease. 1, 2 This is further complicated by epidemiologic differences within and between populations, and temporal variations in disease patterns, especially following vaccine introduction and changing pathogen antibiotic susceptibility profiles. 3, 4 Most research seeking to identify the causative agents of ARIs and whether they predict disease severity and outcomes focuses on specific clinical entities, such as pneumonia, 3 bronchiolitis, 5, 6 and acute asthma/wheezing illness. [7] [8] [9] However, diagnosing these illnesses in young children can be challenging as the symptoms and signs may overlap. Moreover, clinical presentations can be influenced by the child's age, time taken for healthcare to be sought, recent corticosteroid, antibiotic and antipyretic therapy, underlying co-morbidities and environmental and socio-economic factors. 10 In addition, clinician specific factors such as level of pediatric experience and type of healthcare service (eg., primary vs. tertiary level facilities) may also have a role. Cough is symptomatic of a broad-spectrum of respiratory illnesses in children ranging from mild and transient upper airway infections to severe acute and chronic lower respiratory tract disease. 11 When it is wet and chronic (>4-weeks duration), it implies increased airway secretions and endobronchial infection, which if left untreated may progress in some children to chronic suppurative lung disease, including bronchiectasis. 12 Chronic cough is also associated with poor parent cough-specific quality of life scores 13 and parental stress. 14 Thus predictors of chronic cough following an ARI may inform future interventions. No studies in children have tested for an extended panel of respiratory viruses and bacterial pathogens in upper airway specimens to identify whether these agents, singly or in combination, predict cough outcomes irrespective of the clinical ARI diagnosis. Hence, our primary objectives were to determine whether upper airway respiratory viruses and/or bacteria independently predicted: a) hospitalization, and b) the persistence of cough 28-days following presentation to a pediatric emergency department (ED) for an ARI with cough as a symptom. We hypothesized that cough illness outcomes are dependent primarily on child-specific factors rather than upper airway viruses and bacteria detected at the time children present for medical care. The Royal Children's Hospital (RCH), Brisbane, Australia (now the Lady Cilento Children's Hospital) is the largest tertiary pediatric hospital in the state of Queensland. Brisbane has a subtropical climate with summer its wettest season. Brisbane is a socio-economically diverse city with a median weekly household income of approximately AUD$78,000. Thirteen percent of residents were born overseas and 3.0% are of Aboriginal and/Torres Strait Islander origin. Human immunodeficiency virus and Mycobacterium tuberculosis infections in our setting are very rare, 15, 16 and neither was found as an etiology of chronic cough in a study involving 346 children. 13 This study is a secondary analysis of data collected during a prospective cohort study of children aged <15years presenting to the RCH ED with an ARI where cough was a symptom. 17 The primary objective of the original study was to determine the prevalence of persistent cough (>4-weeks duration) post-ARI. The full study protocol is described elsewhere 17 and was approved by the Children's Health Queensland (HREC/11/QRCH/83), and the Queensland University of Technology (2012000700). Human Research Ethics Committees. Children were excluded if they had a known underlying medical condition, including chronic pulmonary disorders (except asthma); were receiving immunomodulating drugs (except short-course (<2-weeks) oral and ongoing maintenance inhaled corticosteroids) in the 30-days prior to presentation; or insufficient English to understand the requirements of the study. Parents/guardians gave written, informed consent, while participants aged >12-years also provided their assent. Sociodemographic and presenting clinical features were recorded on enrolment and a bilateral anterior nasal swab was collected using the Virocult W Specimen Collection system (Medical Wire and Equipment, Wiltshire, England). Children were followed weekly for 28-days to ascertain cough persistence. Previously validated, parent-completed, daily cough diary cards, and weekly telephone/email contacts were implemented to record cough type (wet/dry), severity and duration. 18 Loss to follow-up was defined as two consecutive weeks where weekly contacts were unsuccessful. If it was known a child had stopped coughing prior to loss-to-follow, cough persistence at day-28 was classified as "no." The decision to hospitalize a child and the assessment of persistent cough at day-28 were undertaken by physicians blinded to the PCR results. Laboratory testing occurred upon completion of the study and the laboratory blinded to the clinical data. Nasal swabs were stored atÀ808C within 24-hr of collection before being batch tested at the Queensland Paediatric Infectious Diseases Laboratory, RCH, for respiratory viruses and bacterial pathogens using previously validated polymerase chain reaction (PCR) assays. 17 Descriptive analyses were performed with data expressed as proportions and/or means of the selected characteristics with the corresponding 95% confidence intervals (CI). Where continuous data were not normally distributed, medians with accompanying interquartile ranges (IQR) are presented. Univariable analyses were performed to assess potential associations between child-specific characteristics (Suppl 1), detection of virus and bacteria and the primary endpoints of hospitalization, and persistence of cough at day-28 post-ED presentation. Factors identified in univariable analyses with a P-value < 0.1 were entered into a backwards selection binomial regression model to identify characteristics independently associated with hospitalization and multinomial regression for cough persistence; adjusted relative risks (aRR) and adjusted odds ratio (aOR), and their corresponding 95%CI were calculated and a P-value < 0.05 was considered statistically significant. Model goodness of fit was assessed using the Homer-Lemeshow x 2 statistic. All analyses were performed in Stata V12SE (StataCorp, College Station, TX). Between December 11, 2011 and August 31, 2014, 876 children were enrolled. Nasal swabs were collected from 827 (94.4%) enrolled children; median age 27.7-months (IQR 13.9-60.3) and 498 (60.2%) were male. Ten swabs were excluded due to inhibition during laboratory processing leaving 817 children providing nasal swabs for analysis. Of these, 116 (14.2%, 95%CI 11.8, 16.6) children were hospitalized for their illness and 163 (20.0%, 95%CI 17.2, 22.7) had persistent cough at day-28 following enrolment. Cough status at day-28 was unknown for 233 children (28.5%); 107 (45.9%) of these children were lost to follow-up within the first 14-days. Univariate analyses of differences in characteristics between children followed and not followed-up are presented in Table 1 . In regression analyses having a household income of 2 viruses present. The most common viruses were rhinoviruses (n ¼ 252; 30.8%) and RSV (n ¼ 157; 19.2%). Similarly, 622 (76.1%) swabs had at least one bacterial pathogen identified, 232 (28.4%) were positive for bacteria only, while in 386 (47.2%) >2 bacteria were detected. The most common bacteria detected were M. catarrhalis (n ¼ 467; 57.2%), S. pneumoniae (n ¼ 401; 49.1%) and H. influenzae (n ¼ 259; 31.7%). Both viruses and bacteria were identified in 423 (51.8%) swabs and, of these, at least two bacteria and two viruses were detected in 67 (15.8%). The univariate analyses of predictors for hospitalization, including child characteristics, clinical characteristics, and upper airway viruses and bacteria are presented in Supplement Tables S1-S3. For the multivariable regression analyses of factors identified as being associated with hospitalization in the univariate analyses, complete data were available for 654 (88.0%) children. The final model identified five independent predictors after controlling for age in months and gender. These included: having !3 other children in the house (aRR 4.0, 95%CI 1.6, 9.8); age-adjusted tachypnea in the ED (aRR 1.8, 95%CI 1.1, 2.9); a peripheral oxygen saturation <95% in room air in the ED (aRR 5.1 95%CI 2.9, 9.0); requiring oxygen therapy in the ED (aRR 6.7, 95%CI 3.2, 14.1); and having RSV A or B detected on nasal swab specimens (aRR 1.8, 95%CI 1.0, 3.3). The univariate analyses of predictors for persistent cough at day-28, including child characteristics, clinical characteristics, and upper airway viruses and bacteria are presented in Supplement Tables S4-S6 . For the multivariable regression analyses of factors identified as being associated with persistent cough at day-28 post-ARI Table 2 . The inclusion of "any virus positive" in the model did not affect the final results. This study of 817 children presenting with an ARI, including cough, to the ED of an Australian tertiary pediatric center shows that after controlling for age and gender, RSV was weakly associated with hospitalization, whereas reduced peripheral oxygen saturation, supplemental oxygen treatment, and having at least three other children in the house were associated with an increased likelihood of admission. In contrast, cough duration at the time of enrolment of greater than 14-days and being M. catarrhalis positive on nasal swab were the only factors associated with an increased risk of cough persistence at day-28. Enrolment during the spring months and, although the actual number of children was small, having received oxygen therapy whilst in the ED were associated with a reduced risk of persistent cough. The high prevalence of any organism overall detected in our study is consistent with other studies of pediatric ARI that have utilized molecular methods reflecting the higher sensitivity of PCR compared to traditional culture methods. 19 Further, we tested for an extensive range of organisms, some of which are infrequently assessed in combination with other organisms in clinical or research settings that focus on ARI (for example, the coronavirues, bocavirus, and polyomaviruses). Similarly, the high prevalence of S. pneumoniae in the pneumococcal conjugate vaccine era reflects our use of PCR, the diversity of serotypes that continue to circulate in the pediatric population and that overall carriage of any S. pneumoniae is not affected by vaccination. 20 The relationship between RSV detection and hospitalization is consistent with other studies where it is associated with disease severity, 21,22 particularly with high virus loads. 5 However, the association in our study was relatively weak and this may reflect the small sample of young infants in our study population in whom RSV is generally associated with more severe disease. The clinical signs of tachypnea and hypoxemia triggering oxygen administration are also established markers of severe lower airway disease in children, 23 particularly if cough is present. The number of other children in the house as an independent predictor of hospitalization is less readily explained. It may suggest different caring patterns leading to delayed presentation of the unwell child at an ED, social issues associated with a physician's decision to admit the child from ED, or the intensity of transmission and increased microbial load possibly associated with household crowding. 24, 25 Overcrowding is a recognized risk factor for pediatric ARI hospitalization in several settings. 26, 27 While child numbers in the house was a determinant of hospitalization in our study, the total number of people living in the house and the number of people per bedroom were not. A US study 28 found having older siblings was associated with an increased risk of respiratory symptoms, ED visits and hospitalizations, although this contrasted with their previous study of wheeze and allergic rhinitis in a similar population. 29 Finally, a chance finding cannot be discounted given the large number of variables and analyses performed on our dataset. Our study is the first to report predictors of persistent cough (>4-weeks as defined in the American and Australian pediatric chronic cough guidelines 30, 31 ) in children post-acute presentation that included comprehensive microbiologic data together with clinical and epidemiologic factors, and modeled for unknown cough status at day-28. Hence, our finding with respect to M. catarrhalis is novel. M. catarrhalis carriage in healthy children varies worldwide and estimates range from 20% to 80%, depending on geographic location, socioeconomic status, age, and method of identification. [32] [33] [34] [35] Hence, associating M. catarrhalis in the upper airways with respiratory disease is complex and its individual association with symptoms in ARI is not well studied. A Finnish study of 426 children with acute respiratory 36 Nevertheless, caution is required in interpreting these findings as 86% of children with M. catarrhalis had respiratory virus co-detections. 36 There are limited data on the role of M. catarrhalis in symptom persistence. A small study of 82 children 37 with ARI reported cough lasted significantly longer in children harboring M. catarrhalis in their anterior nares at study entry than those who were not, but the actual duration was unreported. M. catarrhalis in the nasopharynx was also associated with persistent cough >9-days in Swedish preschool children, 38 although respiratory viruses were not included in that study. Similarly, a double-blind randomized, placebo-controlled trial of amoxicillin-clavulanate in 52 children with cough >10-days 39 reported M. catarrhalis as the dominant nasopharyngeal organism (71% of children) and the group allocated antibiotics had significantly better treatment response than those receiving placebo. Recovery was also more rapid in an open label trial of erythromycin in 40 children with prolonged cough 40 that evaluated the nasopharyngeal prevalence of M. catarrhalis in the untreated group: 20% of those colonized recovered within 1-week compared to 75% of those who were not colonized (P ¼ 0.01). M. catarrhalis is commonly detected in the lower airways of children with chronic suppurative lung disease, including bronchiectasis, 41, 42 and in those with protracted bacterial bronchitis. [43] [44] [45] However, as with ARI, its individual role in the pathogenesis of disease is unknown. Our data, the limited existing studies of M. catarrhalis and cough duration in children, and the increasing data on its prevalence in the lower airways of children with chronic lung disease suggest it may have an important role in chronic cough development in children, warranting further study. Importantly, data on whether the association between M.catarrhalis and chronic cough is related to its presence as a single pathogen or due to co-infection with other viruses and/or bacteria are not available. Our analyses controlled for co-infection, but evaluating the role of M. catarrhalis as a single pathogen was not feasible given it was found in isolation in only 4.4% of episodes. We found enrolment in the spring months was associated with a lower risk of persistent cough, and this potentially reflects the seasonality of respiratory viruses and bacteria identified in the overall study on which this paper is based. 46 The data associated with the protective effect of oxygen supplementation in the ED are interesting, although not immediately plausible, and difficult to interpret given the small numbers of children involved. It might reflect the more aggressive and supervised management of severe acute disease received in hospital and subsequent reduced risk of adverse sequelae. Children for whom cough status was unknown at day-28 were more likely to be enrolled during the autumn or spring months, have a longer duration of cough at presentation and be Bocavirus positive on nasal swab at enrolment. The seasonal findings are consistent with a reduced risk of cough at day-28 in those for whom the outcome was known, suggesting an illness with a more acute duration. This may also explain both the rate of loss to follow-up prior in the 2-weeks following ED presentation and the increased risk of cough status being unknown if the cough duration at ED presentation was greater than 14-days. Data from systematic reviews suggest only 10% of children attending primary care with a cough have this symptom 21-days later. 47 Hence, it is plausible that many children lost to follow-up had stopped coughing and parents chose not to continue in the study, particularly given the study incentive of providing children with rapid access (within 2-weeks of day 28) to a pediatric pulmonologist if persistent cough was present. 17 The association with Bocavirus and cough status being unknown is difficult to explain and may be either an anomaly of the data or related to milder illness given the severity of Bocavirus respiratory infections in children may be more dependent on viral load and/or codetection. 48 Our study is not without limitations. The microbiologic data are point prevalence only and do not account for carriage duration and/or infection prior to the acute illness, nor new infections in the 28-days post-presentation, while data from asymptomatic healthy controls are also lacking. The single-center study population may also not be representative of all children with cough presenting to EDs, particularly given our lower recruitment rates in young infants. Further, those whose parents consented to participate in the study may have had different characteristics and outcomes to those who did not, particularly children who were not approached in the ED given their critical illness or alternatively rapid assessment and discharge. In summary, we evaluated the predictors of outcomes in children presenting to a pediatric ED with an ARI that included cough. Hospitalization was more likely in those from a crowded household, having decreased peripheral oxygen saturation, receiving supplemental oxygen and with RSV infection. In contrast, we found a possible role for M. catarrhalis in developing a persistent cough post-ARI. Our microbiological findings are likely to have little immediate application in the clinical setting, however they provide important epidemiological data to better understand the etiology of the development of chronic cough in children. Further studies collecting prospective clinical specimens in the weeks following an ARI are warranted, particularly given the burden of chronic cough in children and its relationship with chronic lung disease. Global burden of acute lower respiratory infections due to respiratory syncytial virus in young children: a systematic review and meta-analysis Global burden of pediatric respiratory illness and the implications for management and prevention Epidemiology and etiology of childhood pneumonia in 2010: estimates of incidence, severe morbidity, mortality, underlying risk factors and causative pathogens for 192 countries Global burden of acute respiratory infections in children: implications for interventions Respiratory syncytial virus genomic load and disease severity among children hospitalized with bronchiolitis: multicenter cohort studies in the United States and Finland Nasopharyngeal bacterial burden and antibiotics: influence on inflammatory markers and disease severity in infants with respiratory syncytial virus bronchiolitis The impact of viral respiratory infection on the severity and recovery from an asthma exacerbation Association of bacteria and viruses with wheezy episodes in young children: prospective birth cohort study The infant nasopharyngeal microbiome impacts severity of lower respiratory infection and risk of asthma development World Health Organization. Handbook IMCI: Integrated Management of Childhood Illness. Geneva: World Health Organization Cough in children: definitions and clinical evaluation Chronic wet cough: protracted bronchitis, chronic suppurative lung disease and bronchiectasis A multi-centre study on chronic cough in children: burden and etiologies based on a standardized management pathway What is the burden of chronic cough for families? Global and national burden of diseases and injuries among children and adolescents between 1990 and 2013: findings from the global burden of disease 2013 study The epidemiology of tuberculosis in children in Australia The development of chronic cough in children following presentation to a tertiary paediatric emergency department with acute respiratory illness: study protocol for a prospective cohort study Subjective scoring of cough in children: parent-completed vs child-completed diary cards vs an objective method The prevalence, co-detection and seasonal distribution of upper airway viruses and bacteria in children with acute respiratory illnesses with cough as a symptom Pneumococcal vaccines: the impact of conjugate vaccine Host response to respiratory syncytial virus infection Characteristics and their clinical relevance of respiratory syncytial virus types and genotypes circulating in northern Italy in five consecutive winter seasons World Health Organization. Revised WHO classification and treatment of childhood pneumonia at health facilities. Geneva: World Health Organization Human metapneumovirus viral load is an important risk factor for disease severity in young children Crowding and other strong predictors of upper respiratory tract carriage of otitis media-related bacteria in Australian Aboriginal and non-Aboriginal children Childhood disadvantage and emergency admission rates for common presentations in London: an exploratory analysis Risk factors and viruses associated with hospitalization due to lower respiratory tract infections in Canadian Inuit children: a case-control study Birth order, atopy, and symptoms of allergy and asthma among inner-city children attending Head Start Prevalence of allergy symptoms and total IgE in a New York City cohort and their association with birth order Guidelines for evaluating chronic cough in pediatrics: ACCP evidence-based clinical practice guidelines Cough in children: definitions and clinical evaluation-position statement of the Thoracic Society of Australia and New Zealand Carriage of Streptococcus pneumoniae and other respiratory bacterial pathogens in low and lower-middle income countries: a systematic review and meta-analysis Population density profiles of nasopharyngeal carriage of five bacterial species in pre-school children measured using quantitative PCR offer potential insights into the dynamics of transmission Differences in nasopharyngeal bacterial carriage in preschool children from different socio-economic origins Associations between pathogens in the upper respiratory tract of young children: interplay between viruses and bacteria Role of nasopharyngeal bacteria and respiratory viruses in acute symptoms of young children Nasal middle meatal specimen bacteriology as a predictor of the course of acute respiratory infection in children The prevalence of potentially pathogenic bacteria in nasopharyngeal samples from individuals with a long-standing cough-clinical value of a nasopharyngeal sample Children with persistent cough-outcome with treatment and role of Moraxella catarrhalis? Erythromycin treatment is beneficial for longstanding Moraxella catarrhalis associated cough in children Respiratory bacterial pathogens in the nasopharynx and lower airways of Australian indigenous children with bronchiectasis Lower airway microbiology and cellularity in children with newly diagnosed non-CF bronchiectasis Bronchoscopic findings in children with chronic wet cough Wet cough in children: infective and inflammatory characteristics in broncho-alveolar lavage fluid Bacterial distribution in the lungs of children with protracted bacterial bronchitis Prevalence, codetection, and seasonal distribution of upper airway viruses and bacteria in children with acute respiratory illnesses with cough as a symptom Duration of symptoms of respiratory tract infections in children: systematic review Human bocavirus-the first 5 years The authors thank the staff of the then Royal Children's Hospital Emergency Department, Respiratory Department, and Medical Records for their assistance with this study. We also thank the members of the Respiratory infection Outreach and Research team for their assistance with data collection and data management (Benjamin Drescher, Benjamin Arnold, Daniel Arnold), and Ms Jane Gaydon at the Queensland Paediatric Infectious Diseases Laboratory for her assistance with the laboratory work. Additional supporting information may be found in the online version of this article at the publisher's web-site.