key: cord-0000464-7p3b6tyf authors: HARTERT, Tina V.; CARROLL, Kecia; GEBRETSADIK, Tebeb; WOODWARD, Kimberly; MINTON, Patricia title: The Tennessee Children's Respiratory Initiative: Objectives, design and recruitment results of a prospective cohort study investigating infant viral respiratory illness and the development of asthma and allergic diseases date: 2010-04-08 journal: Respirology DOI: 10.1111/j.1440-1843.2010.01743.x sha: 3ccbd07ee1865e4f2afffdb6cc8b6039ab605ee7 doc_id: 464 cord_uid: 7p3b6tyf Background and objective: The ‘attack rate’ of asthma following viral lower respiratory tract infections (LRTI) is about 3–4 fold higher than that of the general population; however, the majority of children who develop viral LRTI during infancy do not develop asthma, and asthma incidence has been observed to continuously decrease with age. Thus, we do not understand how viral LRTI either predispose or serve as a marker of children to develop asthma. The Tennessee Children's Respiratory Initiative has been established as a longitudinal prospective investigation of infants and their biological mothers. The primary goals are to investigate both the acute and the long‐term health consequences of varying severity and aetiology of clinically significant viral respiratory tract infections on early childhood outcomes. Methods: Over four respiratory viral seasons, 2004–2008, term, non‐low birth weight previously healthy infants and their biological mothers were enrolled during an infant's acute viral respiratory illness. Longitudinal follow up to age 6 years is ongoing. Results: This report describes the study objectives, design and recruitment results of the over 650 families enrolled in this longitudinal investigation. The Tennessee Children's Respiratory Initiative is additionally unique because it is designed in parallel with a large retrospective birth cohort of over 95 000 mother–infant dyads with similar objectives to investigate the role of respiratory viral infection severity and aetiology in the development of asthma. Conclusions: Future reports from this cohort will help to clarify the complex relationship between infant respiratory viral infection severity, aetiology, atopic predisposition and the subsequent development of early childhood asthma and atopic diseases. The Tennessee Children's Respiratory Initiative (TCRI) has been established as a longitudinal prospective investigation of term, non-low birth weight otherwise healthy infants and their biological mothers. The primary goals of the study are: (i) to investigate both the acute and the long-term health consequences of varying severity and aetiology of clinically significant viral respiratory tract infections on the outcomes of allergic rhinitis (AR) and early childhood asthma; and (ii) to identify the potentially modifiable factors that define children who are at greatest risk of developing asthma following infant respiratory viral infection. This study is unique, in that it was designed in parallel with our Tennessee Asthma Bronchiolitis Study (TABS), which is a retrospective birth cohort study of over 95 000 infants and their biological mothers similarly designed to elucidate the factors predisposing to childhood asthma and allergic This report describes the study objectives, design and recruitment results of the Tennessee Children's Respiratory Initiative, designed to investigate the role of respiratory viral infection severity and etiology in asthma development. Future reports will address the complex relationship between infant respiratory viral infection and asthma and atopic diseases. diseases, but lacking biospecimens. Thus, we designed the prospective TCRI to establish a base for the evaluation of both the risks and benefits of documented significant infant viral respiratory infection of varying severity and aetiology and other environmental exposures on childhood atopy outcomes and to establish a biospecimen repository for analyses including biomarker testing and genotyping. The prospective cohort has the longitudinal design properties that may overcome potential limitations intrinsic to retrospective studies, such as our TABS cohort. [1] [2] [3] [4] [5] It is our eventual goal that the findings from these investigations, in conjunction with other investigations that have helped to elucidate genetic and environmental factors associated with asthma development, will help in the identification of primary and secondary prevention strategies for asthma. This report describes the study objectives, design and recruitment results of this study cohort. The TCRI is a prospective cohort of mother-infant dyads enrolled in a longitudinal investigation of the relationship of infant viral respiratory infection severity and aetiology and the interaction of other risk factors on the development of childhood asthma and allergic diseases. The study was approved by the Vanderbilt Institutional Review Board, and parents provided written informed consent for both their and their child's study participation. Term, non-low birth weight, otherwise healthy infants were enrolled along with their biological mothers, at a single academic institution, Vanderbilt Children's Hospital, at the time of an acute visit (hospitalization, emergency department or unscheduled outpatient visit) for presumed viral bronchiolitis or upper respiratory tract infection (URI) during respiratory viral seasons September through May 2004-2008. Inclusion and exclusion criteria are outlined in Table 1 . Because of the grant funding start date, the first study season did not begin until November 2004. Recruitment was solely hospital-and clinic-based, and was performed 7 days/week during the first 2 years of cohort accrual, and 5 days per week for the two subsequent years. Screening and recruitment were done by experienced Congenital or acquired chronic heart or lung disease, prior requirement for mechanical ventilation for cardiac or pulmonary disease, immunodeficiency, neurologic disease with possible aspiration, significant gastroesophageal reflux disease felt to contribute to pulmonary disease, tracheomalacia Ever received one or more doses of RSV-IVIG or palivizumab Prior study inclusion Fever and neutropenia Children whose parents or guardians were not able to understand the consent process, or a language barrier † research nurses using computerized medical charts to screen infants with presumed respiratory viral illness. The components and time line of the subject visits are outlined in Table 2 Mothers underwent prick skin testing to eight common aeroallergens and a blood specimen was obtained by venepuncture for serum immunoglobulin E (IgE) and DNA. A structured abstraction form was used to obtain information from the medical record regarding the index enrolment visit: current infant weight, confirmation of birth weight, room air pulse oximetry, requirement for supplemental oxygen, medication administration, prior wheezing episodes and detailed information on the current illness and hospital course. Following discharge from the hospital or outpatient setting, the final discharge diagnosis and results of culture data were obtained through chart review. There are three phases of cohort follow up. First, mothers and children undergo an in-person wellchild follow-up visit during the child's second year of life conducted in the Vanderbilt Clinical Research Center, or during a home visit. Second, families are re-contacted every 12-18 months by phone and/or mailings for purposes of cohort retention, and to provide reminders about the remaining study components. Third, mothers, or the current guardians, undergo a phone interview during the fourth and sixth years of life to identify children with asthma, transient wheezing, AR and eczema. The 2-year in-person well-child visit is conducted in the Vanderbilt Clinical Research Center, or during a home visit offered to those unable to return to the study institution. During the visit, the ISAAC questionnaire is administered, blood samples are obtained from children and mothers (if not previously collected) and a buccal swab is collected for DNA if blood cannot be obtained. A structured telephone questionnaire is administered to the mother/parent when their child is 4 and again at 6 years. Trained interviewers employed in the Vanderbilt Survey Research Shared Resource use a web-based computer system to conduct structured telephone interviews, which capture detailed information on asthma and atopy diagnoses and symptoms, extensive environmental exposure history, physical activity, and comorbidities. Asthma, AR and atopic dermatitis outcomes are determined using the ISAAC questionnaire. For children with report of asthma and/or asthma symptoms in the previous 12 months, the Asthma Therapy Assessment Questionnaire is administered, and information on asthma medications, and asthma-related health-care visits are sought. 12, 13 Biospecimen collection and laboratory analyses Table 3 outlines the details of cohort biospecimen collection, repository and testing, which includes infant nasopharyngeal, urine, blood and nasal epithelial cell sample collection, and maternal prick skin testing and blood samples. The discharge diagnosis and supporting clinical parameters of the infant acute respiratory illness visit were reviewed to confirm whether each child had lower respiratory tract infections (LRTI) or URI (n = 628) or another diagnosis (n = 46). LRTI and URI were defined using both the physician discharge diagnosis, as well as post-discharge chart review, and those cases that were not clearly identified as either LRTI or URI were reviewed by a panel of paediatricians who determined whether the illness represented an LRTI, URI, croup or other, which included those that could not be categorized with the available clinical information. Acute respiratory illness severity was determined using the ordinal bronchiolitis score that incorporates admission information on respiratory rate, flaring or retractions, room air oxygen saturation and wheezing, into a score ranging from 0 to 12 (12 being most severe). 27, 28 highly sensitive and specific qRT-PCR assays for many common respiratory viruses, including hMPV, HCoV, RSV, influenza A and B, parainfluenzaviruses 1-3 and rhinovirus. Real-time RT-PCR is performed using the Cepheid Smart Cycler II. All specimens are first tested for GAPDH to confirm integrity of RNA and monitor for potential PCR inhibitors. Negative and positive controls are included with each run, including RNA runoff transcripts to generate a quantitation curve. [14] [15] [16] [17] [18] [19] [20] [21] If rapid antigen and/or culture for RSV or Influenza were performed at the discretion of the admitting physicians during the index visit, these results are also captured and entered in the database. The cells are collected using Mid Turbinate Peds Nylon Flocked Swabs (MicroRheologics, Brescia, Italy), and placed into collection and digestion media, followed by processing and plating onto collagen IV coated tissue culture and grown at 37°C in a 5% CO2 incubator. To develop techniques for isolation, short-term culture, and in vivo modelling of epithelial and stromal cells, a xenograph model has been developed. Following short-term growth in culture, cells are transferred to denuded rat tracheas and implanted subcutaneously in nude mice. Follow-up well-child visit Mother and child DNA is collected from both the mother and child during the blood collection, or using a buccal swab if blood can not be obtained. DNA is extracted by the Vanderbilt Center for Human Genetics Research Core Laboratory and stored following extraction for future studies. Enrolment Infant Urine is collected from hospitalized infants during the acute infant illness at study enrolment, and from a convenience sample of outpatient subjects. Urinary measurements including, leukotrienes C4/D4/E4 (LTC4/D4/E4), and urinary metabolite of the isoprostane, 15-F2t-IsoP (8-iso-PGF2a) will be measured by a gas chromatographic, and other biomarkers and the remainder of the urinary biospecimens will be maintained in the repository. 25, 26 IgE, immunoglobulin E; LRTI, lower respiratory tract infections; URI, upper respiratory tract infection. The family history of atopy was obtained using a family tree. Maternal atopy will be categorized as evidence of atopy by skin testing or specific IgE, and/or clinical symptoms of an atopic disease as assessed by the ISAAC questionnaire. Atopic status of the child will be determined by laboratory evidence of specific IgE during the second year of life, and by clinical evidence based on the above definitions. The diagnosis of asthma will be determined at age 6 years based on responses to the ISAAC questionnaire. [6] [7] [8] The following criteria will define asthma during the sixth year of life: (i) 12-month prevalence of symptoms of asthma (current wheeze) or the presence of exercise-induced wheeze or dry cough at night not due to a cold or chest infection; and (ii) physician diagnosis as determined by the ISAAC questionnaire using either parental reported physician diagnosis of asthma or chronic use/ prescription of asthma-specific medications. Probable asthma will be defined as physician diagnosis only and analysed separately. Transient early wheezing will be defined as wheezing episodes present in the first 4 years of life, but not meeting the definition for childhood asthma at age 4 and 6 years. 29 Allergic rhinitis will be determined through the ISAAC core questions on AR. 7, 8 Children will be considered to have definite AR if each of three conditions is present between age 5 and 6 years: (i) a history of nasal congestion, runny nose, itchy watery eyes, sinus pain or pressure or headaches, sneezing, blocked nose, loss of sense of smell; (ii) substantial variability in symptoms over time or seasonality; and (iii) diagnosed as having allergic rhinitis by a physician or on medications for AR. Probable allergic rhinitis will be defined as meeting two of the three criteria, or only criteria 3. Atopic dermatitis will be determined through the ISAAC core questions on atopic dermatitis, which are based on a list of major and minor criteria widely applied in clinical studies. 8, 30, 31 As eczema is probably more readily confirmed by objective tests than either asthma or rhinitis, patients will be considered to have definite atopic dermatitis if between age 5 and 6 years they report ever having an itchy rash that comes and goes for at least 6 months, and being diagnosed with eczema by a physician. 30, 31 Probable atopic dermatitis will be defined as one of the two above criteria. In order to standardize and monitor the quality of data collection and processing, all study personnel received training and were certified for all the study procedures. Information is recorded on paper case report forms, data are entered and then checked by a second reviewer. Logical data checks are programmed and additionally performed by our systems analyst, investigators and again by our biostatisticians. For laboratory analyses, blind qualitycontrol samples are included in each biospecimen run. Telephone interviewers complete classroom training, orientation to the study population, computer modules, role play interviewing and training on study-specific protocols, and are formally evaluated at the end of training. A verbatim-recording of the interviewer and participant responses, and 10% participant re-contact allows quality-control staff to verify responses. The outcome variables of interest are the incidence of asthma and allergic rhinitis. The primary exposure variables of interest are the severity and aetiology of the infant viral illness and maternal and familial atopic status and other environmental exposures. Cumulative asthma incidence over time, taking into account loss to follow up, will be used for illustrating incidence data. Incidence of asthma and allergic diseases among the enrolled infant population with viral respiratory illness will be calculated by dividing the number of incident asthma cases by the person time of follow up. A Kaplan-Meier plot of cumulative incidence over time, taking into account loss to follow up, will be used for illustrating incidence data. Incidence rates will be calculated by dividing the patient population into quartiles/quintiles of bronchiolitis severity scores. The adjusted risk of asthma and allergic rhinitis with bronchiolitis severity will be evaluated using the Cox proportional hazard regression model. To assess the relationship between biomarker concentrations and increased risk of infant bronchiolitis, and early childhood asthma outcomes, we will conduct a nested case-control study. Geometric means of urinary biomarker concentrations for those who develop and do not develop asthma will be calculated separately and compared using the paired t-test. The association between these biomarkers and the risk of asthma and allergic rhinitis will be assessed using odds ratios and their corresponding 95% confidence intervals from adjusted logistic regression models. The potential confounders that will be considered in multivariable analyses will include demographic and exposure characteristics. Subject recruitment for the TCRI Study occurred over 4 years, and was completed in May 2008. Overall, 9329 visits were screened, representing 7632 unique infants, and 2986 of these infants met study eligibility requirements. From the 2986 eligible infants, 674 infants and their biological mothers were enrolled (Fig. 1) . Among the 2312 subjects who were available during the recruitment periods, the major reasons for non-response were refusal (22%), insufficient time/ unwilling to stay for the visit (outpatients) (39%), conflict with or already enrolled in another study (20%), and other (18%) (includes language barrier, mother/ guardian not present, previously enrolled and other miscellaneous). In 99.9% of the cohort, the nasal/ throat swab was obtained, and in 79% of the hospitalized infants one spot urine sample was obtained at hospital admission. Weekly enrolment into the cohort is depicted in Figure 2 . The TCRI is a large and comprehensive prospective epidemiologic study of mothers and their biologic children enrolled during infancy with a clinically significant LRTI or URI who are being followed through early childhood. This study will provide important information about the role of infant respiratory viral infection severity, aetiology, biomarkers and predictors important in the development of early childhood asthma and allergic rhinitis. The TCRI is additionally unique because it is designed in parallel with a large retrospective birth cohort of over 95 000 mother-infant dyads with similar objectives to investigate the role of respiratory viral infection severity and aetiology in the development of asthma. As evidence suggests that the development of asthma may result in part from respiratory viral infection during infancy, which has a predilection for infecting, destroying and/or in some way biologically altering lower airway epithelium, this study will help to delineate whether the severity of that infection and other early-life events impact the risk of asthma and allergic disease development in later childhood. 3 Despite a high attack rate of developing asthma following viral bronchiolitis, the majority of children who have infant bronchiolitis do not develop childhood asthma. Thus while viral respiratory infections may alter lung physiology and target the inflammatory response to the lower airway, this may only occur during a vulnerable time period during development of the immune system or lung, or in the presence of other risk factors. This developmental component may further reflect important gene-environment interactions that regulate both short-and long-term airway physiological alterations that manifest themselves clinically as childhood asthma. Efforts to determine and define the role of these factors, including disease severity, maternal atopy and other environmental exposures, such as second-hand smoke, to asthma pathogenesis are the focus and goal of the TCRI. Several limitations of this study should be noted. First, the study sample was not randomly selected from the general population, but instead was recruited from a single hospital and clinic-based setting, the Vanderbilt Children's Hospital. While Vanderbilt hospitalizations represent greater than 90% of Davidson County/Nashville infant hospitalizations, it represents a smaller proportion of emergency department visits (51%), and likely even fewer paediatric acute care visits. 2 The relatively low participation rate among eligible subjects is multifactorial and the result of the long-term nature of the study, the lack of study personnel to enrol all eligible subjects, as well as lower willingness among outpatients to extend their visit in order to participate in the study. While this impacts the demographics and exposures of the study population, and thus generalizibility of our study results, it should not impact the findings of the role of infant viral infection on the outcomes of interest. Next, while airway hyperreactivity is not assessed in making the diagnosis of childhood asthma, the identification of incident asthma cases will take into consideration the positive response to a validated written questionnaire that has been compared with bronchial provocation testing. 6, 8 While such an ascertainment strategy might result in the underdiagnosis of asthma, it is unlikely to result in false positive diagnoses during the sixth year of life. Finally, as with many studies, where all eligible participants were approached for participation, difficulty was encountered in follow up of those currently age-eligible for follow up. Strategies to address this include study personnel doing a significant number of follow-up visits at the subject's home, and shipping follow-up materials and requests to paediatricians of subjects who have moved from the region. Future reports from this cohort will help to clarify the complex relationship between infant respiratory viral infection severity, aetiology, atopic predisposition, and the development of early childhood asthma and other atopic diseases. Ultimately, this study, along with the companion TABS cohort, has the potential to provide new approaches to identify infants at high risk of developing early childhood asthma and allergic diseases, as well as provide important information that may contribute to the development of prevention strategies. 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The Group Health Medical Associates Diagnostic features of atopic dermatitis Evaluation and relevance of atopic basic and minor features in patients with atopic dermatitis and in the general population We would like to thank the many families, paediatricians and their office staff, who have participated in this study, as without them, this work would not have been possible.