Recurrent wheezing in preterm infants: Prevalence and risk factors

Simões, Maria Cristina Ribeiro dos Santos; Inoue, Yuri; Matsunaga, Natasha Y.; Carvalho, Maria R.V.; Ribeiro, Gisleine L.T.; Morais, Eliane O.; Ribeiro, Maria A.G.O.; Morcillo, André M.; Ribeiro, José D.; Toro, Adyléia A.D.C.

doi:10.1016/j.jped.2018.06.007

ABSTRACT

Objective:

To evaluate the prevalence and risk factors associated with progression to recurrent wheezing in preterm infants.

Methods:

The cross-sectional study was carried out in 2014 and 2015 and analyzed preterm infants born between 2011 and 2012. The search for these children was performed in a university maternity hospital and a Special Immunobiological Reference Center. The evaluation was performed through a questionnaire applied during a telephone interview.

Results:

The study included 445 children aged 39 (18-54) months. In the univariate analysis, the risk factors with the greatest chance of recurrent wheezing were birth weight <1000 g, gestational age <28 weeks, living with two or more siblings, food allergy, and atopic dermatitis in the child, as well as food allergy and asthma in the parents. In the multivariate analysis, there was a significant association between recurrent wheezing and gestational age at birth <28 weeks, food allergy and atopic dermatitis in the child, and living with two or more children. Of the 445 analyzed subjects, 194 received passive immunization against the respiratory syncytial virus, and 251 preterm infants were not immunized. There was a difference between the gestational age of these subgroups (p < 0.001). The overall prevalence of recurrent wheezing was 27.4% (95% CI: 23.42-31.70), whereas in the children who received passive immunization it was 36.1% (95% CI: 29.55-43.03).

Conclusions:

Personal history of atopy, lower gestational age, and living with two or more children had a significant association with recurrent wheezing. Children with lower gestational age who received passive immunization against the respiratory syncytial virus had a higher prevalence of recurrent wheezing than the group with higher gestational age.

Keywords
Asthma; Respiratory sounds; Respiratory syncytial virus; Prevalence; Risk factors; Prevention and control

RESUMO

Objetivo:

Avaliar a prevalência e os fatores de risco associados à evolução para sibilância recorrente em prematuros.

Métodos:

O estudo transversal foi feito em 2014 e 2015 e analisou crianças prematuras nascidas entre 2011 e 2012. A busca dessas crianças foi feita em maternidade de hospital universitário e em um Centro de Referência para Imunobiológicos Especiais. A avaliação foi feita por questionário dirigido em entrevista telefônica.

Resultados:

O estudo incluiu 445 crianças com 39 (18-54) meses de vida. Na análise univariada, os fatores de risco com maior chance de sibilância recorrente foram peso de nascimento menor do que 1.000 g, idade gestacional menor do que 28 semanas, convivência com dois ou mais irmãos, alergia alimentar e dermatite atópica na criança e alergia alimentar e asma nos pais. Na análise multivariada houve associação significativa entre sibilância recorrente e idade gestacional ao nascer menor do que 28 semanas, alergia alimentar e dermatite atópica na criança e a convivência com duas ou mais crianças. Dos 445 sujeitos analisados, 194 receberam imunização passiva contra vírus sincicial respiratório e 251 eram prematuros não imunizados. Houve diferença entre a idade gestacional desses subgrupos (p < 0,001). A prevalência geral de sibilância recorrente foi 27,4% (IC 95%: 23,42-31,70) e nas crianças que receberam a imunização passiva foi 36,1% (IC 95%: 29,55-43,03).

Conclusões:

História pessoal de atopia, menor idade gestacional e convivência com duas ou mais crianças apresentaram associação significativa com sibilância recorrente. As crianças com menor idade gestacional, que receberam a imunização passiva contra o vírus sincicial respiratório, apresentaram maior prevalência de sibilância recorrente que o grupo de maior idade gestacional.

Palavras-chave
Asma; Sons respiratórios; Vírus sincicial respiratório; Prevalência; Fatores de risco; Prevenção e controle

Introduction

Recurrent wheezing (RW) is an important cause of morbidity and has a high prevalence in the first years of life.¹1 Mallol J, Solé D, Garcia-Marcos L, Rosario N, Aguirre V, Chong H, et al. Prevalence, severity, and treatment of recurrent wheezing during the first year of life: a cross-sectional study of 12,405 Latin American infants. Allergy Asthma Immunol Res. 2016;8:22-31. The International Study of Wheezing in Infants (EISL), which standardizes its investigation, defines RW as the occurrence of three or more episodes of wheezing crises in 1 year.¹1 Mallol J, Solé D, Garcia-Marcos L, Rosario N, Aguirre V, Chong H, et al. Prevalence, severity, and treatment of recurrent wheezing during the first year of life: a cross-sectional study of 12,405 Latin American infants. Allergy Asthma Immunol Res. 2016;8:22-31. The wheezing represents turbulent airflow due to the reduced caliber of the lower airways, caused by obstruction or constriction.²2 Lotz MT, Moore ML, Peebles RS. Respiratory syncytial virus and reactive airway disease. Curr Top Microbiol Immunol. 2013;372:105-18. Approximately 90% of wheezing episodes in children up to the third year of life are caused by viral respiratory infections, mainly by the respiratory syncytial virus (RSV).³3 Knudson CJ, Varga SM. The Relationship between respiratory syncytial virus and asthma. Vet Pathol. 2015;52:97-106. Infant RW is associated with viral infections and asthma, in addition to other pulmonary and extrapulmonary diseases.⁴4 Global initiative for asthma. Global strategy for asthma management and prevention; 2016. [cited 2016 Oct 24]. Available from: www.ginasthma.org
www.ginasthma.org... Cohort studies have allowed the identification of RW phenotypes with the objective of diagnosing asthma and establishing prevention and therapeutic strategies.⁵5 Guilbert TW, Mauger DT, Lemanske RF. Childhood asthma-predictive phenotype. J Allergy Clin Immunol Pract. 2014;2:664-70.

In the literature, the risk factors associated with RW are correlated with genetic characteristics, lower airway caliber, and exposure to environmental agents.⁵5 Guilbert TW, Mauger DT, Lemanske RF. Childhood asthma-predictive phenotype. J Allergy Clin Immunol Pract. 2014;2:664-70.

Technological advances have resulted in an increase in the preterm infant population, who are at higher risk of developing recurrent wheezing, which interferes with morbidity rates and cost increases for public health services.⁶6 Blencowe H, Cousens S, Chou D, Oestergaard M, Say L, Moller AB, et al. Born too soon: the global epidemiology of 15 million preterm births. Reproductive Health. 2013;10(Suppl 1):S2.

Severe RSV infection is an important risk factor associated with RW.⁷7 Jackson DJ. Early-life viral infections and the development of asthma: a target for asthma prevention?. Curr Opin Allergy Clin Immunol. 2014;14:131-6. It is yet to be defined whether the infection by this virus results in RW or if the severe infection and wheezing are markers of an underlying vulnerability, such as atopy.⁸8 Collins PL, Graham BS. Viral and host factors in human respiratory syncytial virus pathogenesis. J Virol. 2008;82:2040-55. This virus activates the standard T-helper type 2 (Th2) immune response.³3 Knudson CJ, Varga SM. The Relationship between respiratory syncytial virus and asthma. Vet Pathol. 2015;52:97-106.^,⁸8 Collins PL, Graham BS. Viral and host factors in human respiratory syncytial virus pathogenesis. J Virol. 2008;82:2040-55. Some authors affirm that the occurrence of infection in the early stages of life can permanently alter the immune response, promoting RW and asthma.⁹9 Lambert L, Sagfors AM, Openshaw PJ, Culley FJ. Immunity to RSV in early-life. Front Immunol. 2014;5:466. On the other hand, severe RSV infection may be a marker of genetic predisposition to asthma.¹⁰10 Chawes BL, Poorisrisak P, Johnston SL, Bisgaard H. Neonatal bronchial hyper responsiveness precedes acute severe viral bronchiolitis in infants. J Allergy Clin Immunol. 2012;130:354-61.

Since the late 1990s, the monoclonal antibody Palivizumab has been used as a passive immunization method to reduce the rates of severe RSV infection in individuals at higher risk, i.e. premature infants with bronchopulmonary dysplasia or congenital heart disease with hemodynamic repercussions.¹¹11 American Academy of Pediatrics Committee on Infectious Disease; American Academy of Pediatrics Bronchiolitis Guidelines Committee. Updated guidance for Palivizumab prophylaxis among infants and young children at increased risk of hospitalization for respiratory syncytial virus infection. Pediatrics. 2014;134:415-20. According to the guidelines of the American Academy of Pediatrics, Palivizumab has a limited effect on respiratory infections in children with no risk factors for severe disease as well as minimal effects on subsequent wheezing, and its use is not recommended for asthma prevention or to reduce episodes of wheezing.¹¹11 American Academy of Pediatrics Committee on Infectious Disease; American Academy of Pediatrics Bronchiolitis Guidelines Committee. Updated guidance for Palivizumab prophylaxis among infants and young children at increased risk of hospitalization for respiratory syncytial virus infection. Pediatrics. 2014;134:415-20.

Some studies have shown evidence of a causal effect of Palivizumab use on the reduction of wheezing rates in preterm infants.¹²12 Simões EA, Groothuis JR, Carbonell-Estrany X, Rieger CH, Mitchell I, Fredrick LM, et al. Palivizumab prophylaxis, respiratory syncytial virus, and subsequent recurrent wheezing. J Pediatr. 2007;151:34-42, 42.e1.

13 Blanken MO, Rovers MM, Molenaar JM, Winkler-Seinstra PL, Meijer A, Kimpen JL, et al. Respiratory syncytial virus and recurrent wheeze in healthy preterm infants. N Engl J Med. 2013;368:1791-9.^-¹⁴14 Yoshihara S, Kusuda S, Mochizuki H, Okada K, Nishima S, Simões EA. Effect of Palivizumab prophylaxis on subsequent recurrent wheezing in preterm infants. Pediatrics. 2013;132:811-8. However, Simões et al.¹⁵15 Simões EA, Carbonell-Estrany X, Rieger CH, Mitchell I, Fredrick L, Groothuis JR. The effect of respiratory syncytial virus on subsequent recurrent wheezing in atopic and nonatopic children. J Allergy Clin Immunol. 2010;126:256-62. verified that the use of passive immunization only resulted in RW protection in children with no family history of atopy. This protective effect was not observed in the group of atopic children.¹⁵15 Simões EA, Carbonell-Estrany X, Rieger CH, Mitchell I, Fredrick L, Groothuis JR. The effect of respiratory syncytial virus on subsequent recurrent wheezing in atopic and nonatopic children. J Allergy Clin Immunol. 2010;126:256-62. In a cohort of previously healthy preterm infants, protection against RSV did not change the risk of asthma or pulmonary function test results at 6 years of age.¹⁶16 Scheltema NM, Nibbelke EE, Pouw J, Blanken MO, Rovers MM, Naaktgeboren CA, et al. Respiratory syncytial virus prevention and asthma in healthy preterm infants: a randomised controlled trial. Lancet Respir Med. 2018;6:257-64.

The objectives of this study were to evaluate the prevalence of RW in a group of preterm infants and to analyze the risk factors associated with it-among the risk factors, our objective was to verify whether lower risk of severe RSV infection provided by passive immunization against RSV or a higher gestational age protected preterm infants from the progression to subsequent RW.

Methods

The cross-sectional study was carried out between June 2014 and August 2015.

The study group included preterm infants born in 2011 and 2012, with a GA <37 weeks, defined by gestational ultrasound or by the Capurro method, at the Centro de Atendimento Integral à Saúde da Mulher (CAISM) (Women's Comprehensive Health Care Center)-Unicamp; and preterm children born between 2010 and 2012 in the area of the Regional Health Division-DIR VII (Health Secretariat of the State of São Paulo), who were referred to passive immunization against RSV (Palivizumab) in 2012 at the Special Immunobiological Reference Center (CRIE) of Unicamp.

The research tool was a questionnaire directed at risk factors associated with the reduced version of the EISL¹⁷17 Dela Bianca AC, Wandalsen GF, Miyagi K, Camargo L, Cezarin D, Mallol J, et al. International study of wheezing in infants (EISL): validation of written questionnaire for children aged below 3 years. J Investig Allergol Clin Immunol. 2009;19:35-42. questionnaire, which investigated demographic data and risk factors for RW such as gender, ethnicity, maternal schooling, birth weight, GA at birth, breastfeeding, daycare attendance, exposure to pets, number of children in the same household, maternal smoking, caregiver smoking, personal history of food allergy and atopic dermatitis, parental history of food allergy or asthma, and protection against severe RSV infection through the use of Palivizumab. This questionnaire was applied to the parents or guardians through a telephone interview. Children whose parents or guardians were not found as well as those who died were excluded. The definition of RW was three or more wheezing crises within 1 year in the first year of life or in the last year before the interview.

Data were processed with the SPSS software, version 16.0 (SPSS Inc., Chicago, IL, USA). Qualitative variables were shown as absolute and relative frequencies, and their association was assessed with the χ ²-test. The mean, standard deviation, median, minimum, and maximum values of the quantitative variables were determined, and the comparison of their distribution was calculated using the Mann-Whitney test. The level of significance was set at 5%. The non-adjusted odds ratio values, 95% CI, and the p-value of RW were determined in relation to each predictor variable through univariate logistic regression (Enter method). Subsequently, the predictor variables with p-value <0.200 in the univariate analysis were selected to comprise the multivariate logistic model. The Forward Stepwise method (Wald) was used, with an inclusion p-value of 0.05 and an exclusion p-value of 0.10. The prevalence of RW and its confidence interval were defined using the OpenEpi software, version 3.03a.

The research project was approved by the CAISM Research Committee (CP 019/2014) and by the Research Ethics Committee of Unicamp (Opinion n. 142,928/2012 and Opinion n. 1,030,707/2015). The study was exempted from the need for the Free and Informed Consent Form due to the impossibility of performing face-to-face interviews.

Results

A total of 825 preterm infants were born in CAISM in 2011 and 2012. Telephone calls were made to all contact phones, and 261 children were located. Of the 10 that were excluded, five children had died and five were in the group that received Palivizumab. The parents or guardians of 251 children were interviewed. There were 425 children in the group that received Palivizumab in 2012. A total of 282 of these children were found, of which 84 were excluded for not being preterm, and four because of death. The parents or guardians of 194 children were interviewed. There were no refusals to the interview. In total, 445 preterm infants, aged 39 months (minimum: 18; maximum: 54; interquartile range: 8) and with gestational age of 32 weeks (minimum: 24; maximum: 36; interquartile range: 6) were assessed. The demographic and clinical characteristics of this group are shown in Table 1.

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Table 1
Demographic and clinical characteristics of the study group.

When the questionnaire was applied, the age of the children with RW was 39 months (minimum: 18; maximum: 50; interquartile range: 7). Among the children without RW, the age was 40 months (minimum: 22; maximum: 54; interquartile range: 9). Statistical analysis of the chronological ages did not show any significant difference (p = 0.142).

The GA of the Palivizumab group was 28 weeks (minimum: 24; maximum: 36; interquartile range: 3.25). The GA of the non-immunized group was 34 weeks (minimum: 28; maximum: 36; interquartile range: 3). The evaluation of the association of GA in children who used Palivizumab and in those who did not showed a significant difference (p < 0.001), and the group that received Palivizumab had a lower GA.

The overall prevalence of RW was 27.4% (95% CI: 23.42-31.70). In the group receiving Palivizumab, RW prevalence was 36.1% (95% CI: 29.55-43.03), and in the group without prophylaxis it was 20.7% (95% CI: 16.04-26.06). The group that received passive immunization had a higher RW prevalence (p < 0.001).

Hospitalization due to wheezing crisis was more frequent in children with recurrent wheezing (p < 0.001).

The analysis of risk factors for RW by univariate logistic regression did not find a statistically significant difference in relation to the following factors: gender, ethnicity, maternal schooling, birth weight > 1000 g, gestational age > 28 weeks, breastfeeding, daycare attendance, exposure to pets, fewer than two children at home, maternal smoking, and caregiver smoking (Table 2).

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Table 2
Risk factors for recurrent wheezing.

Regarding birth weight, the chance of the child having RW was 2.38 times greater if he/she was in the birth weight group between 500 and 1000 g (OR: 2.38; 95% CI: 1.33-4.27; p = 0.004) in relation to the group weighing more than 2000 g. A gestational age of 24-27 weeks meant a 3.35-fold higher chance of belonging to the RW group (OR: 3.35; 95% CI: 1.86-6.01; p < 0.001) compared to the group with gestational age at birth >37 weeks (Table 2).

The chance of RW was 76% higher when the child lived with two or more children in the same house (OR: 1.76; 95% CI: 1.05-2.95; p = 0.032) (Table 2).

There was an association of RW and history of atopy in the children and family members. Food allergy in the child increased the chance of recurrent wheezing by 2.17 times (OR: 2.17; 95% CI: 1.09-4.31; p = 0.027); atopic dermatitis in the child, by 2.44 times (OR: 2.44; 95% CI: 1.29-4.61; p = 0.006); food allergy in the parents, by 2.27 times (OR 2.27; 95% CI 1.03-5.01; p = 0.042); and asthma in the parents, by 74% (OR: 1.74; 95% CI: 1.10-2.78; p = 0.019) (Table 2).

The group that did not receive passive immunization, with a higher gestational age, had a lower chance of recurrent wheezing (OR: 0.46; 95% CI: 0.30-0.71; p < 0.001) (Table 2).

For the multivariate logistic regression analysis, the birth weight "risk factor" was not included due to the strong association with gestational age. After the final adjustments, the following variables remained in the model: gestational age between 24 and 27 weeks, in which the chance of having RW is 4.33-fold greater than in the group with 32-36 weeks of GA (adjusted OR = 4.33; 95% CI: 2.31-8.12; p < 0.001); living with two or more children, with a chance 2.05-fold greater than in families without other children (adjusted OR = 2.05; 95% CI: 1.18-3.56; p = 0.011); atopic dermatitis in the child, a group where the chance is 2.96-fold greater (adjusted OR = 2.96; 95% CI: 1.51-5.8; p = 0.002); and food allergy in the child, with a 2.56-fold greater chance of developing RW (adjusted OR = 2.56; 95% CI: 1.20-5.43; p = 0.015) (Table 3).

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Table 3
Multivariate analysis.

Discussion

The decision to evaluate RW in a group of preterm infants was motivated by the need to understand the risk factors associated with RW in this specific population.

The prevalence of RW found in this study was 27.4%, evaluated in a population of preterm infants heterogeneous in regard to the presence of comorbidities, with a high risk of severe RSV infection. In the study by Mallol et al.,¹1 Mallol J, Solé D, Garcia-Marcos L, Rosario N, Aguirre V, Chong H, et al. Prevalence, severity, and treatment of recurrent wheezing during the first year of life: a cross-sectional study of 12,405 Latin American infants. Allergy Asthma Immunol Res. 2016;8:22-31. published in 2016, there was a prevalence of 21.7% among children from the general population in the city of São Paulo, not considering prematurity and its comorbidities, but with demographic characteristics similar to the individuals in this study.¹1 Mallol J, Solé D, Garcia-Marcos L, Rosario N, Aguirre V, Chong H, et al. Prevalence, severity, and treatment of recurrent wheezing during the first year of life: a cross-sectional study of 12,405 Latin American infants. Allergy Asthma Immunol Res. 2016;8:22-31. A systematic review article on the risk of wheezing in preterm infants shows a prevalence rate of 31.6% of RW in preterm infants aged 4 years.¹⁸18 Sonnenschein-van der Voort AM, Arends LR, de Jongste JC, Annesi-Maesano I, Arshad SH, Barros H, et al. Preterm birth infant weight gain, and childhood asthma risk: a meta-analysis of 147,000 European children. J Allergy Clin Immunol. 2014;133:1317-29. Another systematic review and meta-analysis study showed a higher chance of RW in preterm patients, especially in children born with GA <32 weeks.¹⁹19 Been JV, Lugtenberg MJ, Smets E, van Schayck CP, Kramer BW, Mommers M, et al. Preterm birth and childhood wheezing disorders: a systematic review and meta-analysis. PLoS Med. 2014;11:e1001596. We did not find any articles addressing the RW prevalence in individuals with characteristics similar to those evaluated in this study.

There was no association in this study group between RW and the risk factors of gender, ethnicity, maternal schooling, breastfeeding, daycare attendance, exposure to pets, maternal smoking, caregiver smoking, and Palivizumab immunization. However, an association was demonstrated between RW and birth weight <1000 g, gestational age <28 weeks, living with two or more children in the same household, a personal history of atopy, and atopy in the parents. Hospital admission due to a wheezing crisis was more frequent in the group with recurrent wheezing, a finding that was similar to a study by the EISL group.¹1 Mallol J, Solé D, Garcia-Marcos L, Rosario N, Aguirre V, Chong H, et al. Prevalence, severity, and treatment of recurrent wheezing during the first year of life: a cross-sectional study of 12,405 Latin American infants. Allergy Asthma Immunol Res. 2016;8:22-31. This characteristic was not studied as a risk factor, and only its association was assessed.

A study performed with preterm infants shows that male gender is an independent risk factor associated with RW.²⁰20 Fauroux B, Gouyon B, Roze C, Guillermet-Fromentin C, Glorieux I, Adamon L, et al. Respiratory morbidity of preterm infants of less than 33 weeks gestation without bronchopulmonary dysplasia: a 12-month follow-up of the CASTOR study cohort. Epidemiol Infect. 2014;142:1362-74. Studies by the EISL group also demonstrate that male gender is associated with RW,²¹21 Garcia-Marcos L, Mallol J, Solé D, Brand PL. EISL Study Group International study of wheezing in infants: risk factors in affluent and non-affluent countries during the first year of life. Pediatr Allergy Immunol. 2010;21:878-88.^,²²22 Bercedo-Sanz A, Lastra-Martínez L, Pellegrini-Belinchón J, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Wheezing and risk factors in the first year of life in Cantabria, Spain: the EISL study. Allergol Immunopathol (Madr). 2015;43:543-52. but there are studies that found no difference between genders.²³23 Pellegrini-Belinchón J, Miguel-Miguel G, De Dios-Martín B, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Study of wheezing and its risk factors in the first year of life in the Province of Salamanca, Spain: the EISL study. Allergol Immunopathol (Madr). 2012;40:164-71.

EISL studies do not define ethnicity as a factor associated with RW,²²22 Bercedo-Sanz A, Lastra-Martínez L, Pellegrini-Belinchón J, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Wheezing and risk factors in the first year of life in Cantabria, Spain: the EISL study. Allergol Immunopathol (Madr). 2015;43:543-52.^,²³23 Pellegrini-Belinchón J, Miguel-Miguel G, De Dios-Martín B, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Study of wheezing and its risk factors in the first year of life in the Province of Salamanca, Spain: the EISL study. Allergol Immunopathol (Madr). 2012;40:164-71. but one American study considered an African ancestry to be an independent factor associated with RW.²⁴24 Kumar R, Tsai J, Hong X, Gignoux C, Pearson C, Ortiz K, et al. African ancestry, early life exposures, and respiratory morbidity in early childhood. Clin Exp Allergy. 2012;42:265-674.

Also, in some EISL studies, the level of maternal schooling was not a factor associated with a greater chance of RW.²²22 Bercedo-Sanz A, Lastra-Martínez L, Pellegrini-Belinchón J, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Wheezing and risk factors in the first year of life in Cantabria, Spain: the EISL study. Allergol Immunopathol (Madr). 2015;43:543-52.^,²³23 Pellegrini-Belinchón J, Miguel-Miguel G, De Dios-Martín B, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Study of wheezing and its risk factors in the first year of life in the Province of Salamanca, Spain: the EISL study. Allergol Immunopathol (Madr). 2012;40:164-71. Other authors who analyzed this risk factor showed that a college- or university-degree level of schooling was a protective condition.²¹21 Garcia-Marcos L, Mallol J, Solé D, Brand PL. EISL Study Group International study of wheezing in infants: risk factors in affluent and non-affluent countries during the first year of life. Pediatr Allergy Immunol. 2010;21:878-88.

The results of breastfeeding effects on RW are controversial in the literature, partly due to the fact that many studies are only observational.⁶6 Blencowe H, Cousens S, Chou D, Oestergaard M, Say L, Moller AB, et al. Born too soon: the global epidemiology of 15 million preterm births. Reproductive Health. 2013;10(Suppl 1):S2. There is an association between RW and lack of breastfeeding in EISL studies.²⁵25 Fogaça HR, Marson FA, Toro AA, Solé D, Ribeiro JD. Epidemiological aspects of and risk factors for wheezing in the first year of life. J Bras Pneumol. 2014;40:617-25. A publication evaluating this risk factor in preterm infants found no association between maternal breastfeeding and RW,²⁰20 Fauroux B, Gouyon B, Roze C, Guillermet-Fromentin C, Glorieux I, Adamon L, et al. Respiratory morbidity of preterm infants of less than 33 weeks gestation without bronchopulmonary dysplasia: a 12-month follow-up of the CASTOR study cohort. Epidemiol Infect. 2014;142:1362-74. as in this study.

Contrary to this study, several authors of studies using the EISL questionnaire showed an association between RW and daycare attendance.¹1 Mallol J, Solé D, Garcia-Marcos L, Rosario N, Aguirre V, Chong H, et al. Prevalence, severity, and treatment of recurrent wheezing during the first year of life: a cross-sectional study of 12,405 Latin American infants. Allergy Asthma Immunol Res. 2016;8:22-31.^,²¹21 Garcia-Marcos L, Mallol J, Solé D, Brand PL. EISL Study Group International study of wheezing in infants: risk factors in affluent and non-affluent countries during the first year of life. Pediatr Allergy Immunol. 2010;21:878-88.

22 Bercedo-Sanz A, Lastra-Martínez L, Pellegrini-Belinchón J, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Wheezing and risk factors in the first year of life in Cantabria, Spain: the EISL study. Allergol Immunopathol (Madr). 2015;43:543-52.^-²³23 Pellegrini-Belinchón J, Miguel-Miguel G, De Dios-Martín B, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Study of wheezing and its risk factors in the first year of life in the Province of Salamanca, Spain: the EISL study. Allergol Immunopathol (Madr). 2012;40:164-71.^,²⁵25 Fogaça HR, Marson FA, Toro AA, Solé D, Ribeiro JD. Epidemiological aspects of and risk factors for wheezing in the first year of life. J Bras Pneumol. 2014;40:617-25.

This study showed that the fact that two or more children live with the patient in the same household is significant, with a lower number of siblings not being important. Other EISL studies showed that there is no difference between the chance of RW and living with any number of siblings in the same household.²²22 Bercedo-Sanz A, Lastra-Martínez L, Pellegrini-Belinchón J, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Wheezing and risk factors in the first year of life in Cantabria, Spain: the EISL study. Allergol Immunopathol (Madr). 2015;43:543-52.^,²³23 Pellegrini-Belinchón J, Miguel-Miguel G, De Dios-Martín B, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Study of wheezing and its risk factors in the first year of life in the Province of Salamanca, Spain: the EISL study. Allergol Immunopathol (Madr). 2012;40:164-71. A study carried out in Spain with preterm infants defines the presence of school-aged siblings as an independent risk factor associated with RW.²⁶26 Pérez-Yarza EG, Moreno-Galdó A, Ramilo O, Rubí T, Escribano A, Torres A, et al. Risk factors for bronchiolitis, recurrent wheezing, and related hospitalization in preterm infants during the first year of life. Pediatr Allergy Immunol. 2015;26:797-804.

Exposure to pets is not significant for RW according to the findings of EISL.²²22 Bercedo-Sanz A, Lastra-Martínez L, Pellegrini-Belinchón J, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Wheezing and risk factors in the first year of life in Cantabria, Spain: the EISL study. Allergol Immunopathol (Madr). 2015;43:543-52.^,²³23 Pellegrini-Belinchón J, Miguel-Miguel G, De Dios-Martín B, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Study of wheezing and its risk factors in the first year of life in the Province of Salamanca, Spain: the EISL study. Allergol Immunopathol (Madr). 2012;40:164-71. However, the association between living with pets and RW has been previously published.²⁵25 Fogaça HR, Marson FA, Toro AA, Solé D, Ribeiro JD. Epidemiological aspects of and risk factors for wheezing in the first year of life. J Bras Pneumol. 2014;40:617-25.

Regarding the smoking risk factor, a systematic review that assessed the association between wheezing, maternal smoking in pregnancy, and postnatal exposure to cigarettes found an association between prenatal exposure to smoking and the occurrence of RW at 3-4 years of age.²⁷27 Burke H, Leonardi-Bee J, Hashim A, Pine-Abata H, Chen Y, Cook DG, et al. Prenatal and passive smoke exposure and incidence of asthma and wheeze: systematic review and meta-analysis. Pediatrics. 2012;129:735-44. Another study showed that preterm birth associated with maternal smoking establishes a 3.8-fold higher probability of RW when compared to children born at term.²⁸28 Robison RG, Kumar R, Arguelles LM, Hong X, Wang G, Apollon S, et al. Maternal smoking during pregnancy, prematurity and recurrent wheezing in early childhood. Pediatr Pulmonol. 2012;47:666-73. A study carried out with preterm infants with GA <28 weeks did not find an association between smoking and RW, and its justification was the possibility that this factor was overcome by the inherent morbidity of extreme prematurity.²⁹29 Skromme K, Leversen KT, Eide GE, Markestad T, Halvorsen T. Respiratory illness contributed significantly to morbidity in children born extremely premature or with extremely low birth weights in 1999-2000. Acta Paediatr. 2015;104:1189-98.

Regarding the birth weight evaluation, this study showed that the lower the birth weight, the higher the chance of RW, which is similar to the findings of a French study carried out with preterm infants²⁰20 Fauroux B, Gouyon B, Roze C, Guillermet-Fromentin C, Glorieux I, Adamon L, et al. Respiratory morbidity of preterm infants of less than 33 weeks gestation without bronchopulmonary dysplasia: a 12-month follow-up of the CASTOR study cohort. Epidemiol Infect. 2014;142:1362-74. and a large EISL study.³⁰30 Aranda CS, Wandalsen GF, Mallol J, Solé D. Brazilian EISL Group. Wheezing and low birth weight. Pediatr Allergy Immunol. 2015;26:82-5. There is an association of low birth weight with preterm birth and intrauterine growth restriction, which are factors associated with pulmonary development impairment and reduction of pulmonary function.³⁰30 Aranda CS, Wandalsen GF, Mallol J, Solé D. Brazilian EISL Group. Wheezing and low birth weight. Pediatr Allergy Immunol. 2015;26:82-5. Systematic reviews have also associated preterm birth with RW.¹⁸18 Sonnenschein-van der Voort AM, Arends LR, de Jongste JC, Annesi-Maesano I, Arshad SH, Barros H, et al. Preterm birth infant weight gain, and childhood asthma risk: a meta-analysis of 147,000 European children. J Allergy Clin Immunol. 2014;133:1317-29.^,¹⁹19 Been JV, Lugtenberg MJ, Smets E, van Schayck CP, Kramer BW, Mommers M, et al. Preterm birth and childhood wheezing disorders: a systematic review and meta-analysis. PLoS Med. 2014;11:e1001596. Simões et al.¹²12 Simões EA, Groothuis JR, Carbonell-Estrany X, Rieger CH, Mitchell I, Fredrick LM, et al. Palivizumab prophylaxis, respiratory syncytial virus, and subsequent recurrent wheezing. J Pediatr. 2007;151:34-42, 42.e1. demonstrated an inversely proportional variation of RW with GA and birth weight.

Atopy is an important risk factor associated with RW in this study, as a personal history of food allergy and atopic dermatitis has been confirmed as providing a significant increase in the chance of RW in the study population. Studies have reported the association between food allergy and RW and asthma.¹⁵15 Simões EA, Carbonell-Estrany X, Rieger CH, Mitchell I, Fredrick L, Groothuis JR. The effect of respiratory syncytial virus on subsequent recurrent wheezing in atopic and nonatopic children. J Allergy Clin Immunol. 2010;126:256-62. Atopic dermatitis is a factor associated with RW in many EISL studies,²¹21 Garcia-Marcos L, Mallol J, Solé D, Brand PL. EISL Study Group International study of wheezing in infants: risk factors in affluent and non-affluent countries during the first year of life. Pediatr Allergy Immunol. 2010;21:878-88.^,²³23 Pellegrini-Belinchón J, Miguel-Miguel G, De Dios-Martín B, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Study of wheezing and its risk factors in the first year of life in the Province of Salamanca, Spain: the EISL study. Allergol Immunopathol (Madr). 2012;40:164-71. as well as asthma in the parents.¹1 Mallol J, Solé D, Garcia-Marcos L, Rosario N, Aguirre V, Chong H, et al. Prevalence, severity, and treatment of recurrent wheezing during the first year of life: a cross-sectional study of 12,405 Latin American infants. Allergy Asthma Immunol Res. 2016;8:22-31.^,¹⁵15 Simões EA, Carbonell-Estrany X, Rieger CH, Mitchell I, Fredrick L, Groothuis JR. The effect of respiratory syncytial virus on subsequent recurrent wheezing in atopic and nonatopic children. J Allergy Clin Immunol. 2010;126:256-62.^,²¹21 Garcia-Marcos L, Mallol J, Solé D, Brand PL. EISL Study Group International study of wheezing in infants: risk factors in affluent and non-affluent countries during the first year of life. Pediatr Allergy Immunol. 2010;21:878-88.

22 Bercedo-Sanz A, Lastra-Martínez L, Pellegrini-Belinchón J, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Wheezing and risk factors in the first year of life in Cantabria, Spain: the EISL study. Allergol Immunopathol (Madr). 2015;43:543-52.^-²³23 Pellegrini-Belinchón J, Miguel-Miguel G, De Dios-Martín B, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Study of wheezing and its risk factors in the first year of life in the Province of Salamanca, Spain: the EISL study. Allergol Immunopathol (Madr). 2012;40:164-71.^,²⁵25 Fogaça HR, Marson FA, Toro AA, Solé D, Ribeiro JD. Epidemiological aspects of and risk factors for wheezing in the first year of life. J Bras Pneumol. 2014;40:617-25.

There is a complex association between severe RSV infection and RW development. This study evaluated several risk factors for RW in preterm infants, as previously discussed. The prevalence of RW was higher in the group of children who received passive immunization against RSV, which can be explained by their lower GA and lower weight.

In the literature, some articles associate the use of passive immunization against RSV and RW indices. Simões et al.¹²12 Simões EA, Groothuis JR, Carbonell-Estrany X, Rieger CH, Mitchell I, Fredrick LM, et al. Palivizumab prophylaxis, respiratory syncytial virus, and subsequent recurrent wheezing. J Pediatr. 2007;151:34-42, 42.e1. report that the use of Palivizumab reduced the incidence of RW in a non-randomized cohort of preterm infants with GA <36 weeks without chronic lung disease. However, in another article¹⁵15 Simões EA, Carbonell-Estrany X, Rieger CH, Mitchell I, Fredrick L, Groothuis JR. The effect of respiratory syncytial virus on subsequent recurrent wheezing in atopic and nonatopic children. J Allergy Clin Immunol. 2010;126:256-62. by the same study group, when the presence of atopy in the family was evaluated the authors only found a reduction in RW indices in children with no family history of atopy. Yoshihara et al.¹⁴14 Yoshihara S, Kusuda S, Mochizuki H, Okada K, Nishima S, Simões EA. Effect of Palivizumab prophylaxis on subsequent recurrent wheezing in preterm infants. Pediatrics. 2013;132:811-8. also showed lower RW values in an observational study with preterm infants with GA of 33-35 weeks, whose outcome was the RW assessed in medical consultations. Blanken et al.¹³13 Blanken MO, Rovers MM, Molenaar JM, Winkler-Seinstra PL, Meijer A, Kimpen JL, et al. Respiratory syncytial virus and recurrent wheeze in healthy preterm infants. N Engl J Med. 2013;368:1791-9. carried out a randomized study that showed a reduction in days of wheezing in the first year of life of preterm infants who received passive immunization, without comorbidities, but Scheltema et al.¹⁶16 Scheltema NM, Nibbelke EE, Pouw J, Blanken MO, Rovers MM, Naaktgeboren CA, et al. Respiratory syncytial virus prevention and asthma in healthy preterm infants: a randomised controlled trial. Lancet Respir Med. 2018;6:257-64. reassessed this same cohort and showed that there was no change in the risk of asthma or pulmonary function at 6 years of age in relation to the use of Palivizumab. In its guidelines for Palivizumab use, the American Academy of Pediatrics (AAP) emphasizes its important role in reducing severe RSV infection; however, based on the articles described above, the AAP recommends that this prophylaxis should not be used either for the purpose of reducing subsequent episodes of RW or for asthma prevention.¹¹11 American Academy of Pediatrics Committee on Infectious Disease; American Academy of Pediatrics Bronchiolitis Guidelines Committee. Updated guidance for Palivizumab prophylaxis among infants and young children at increased risk of hospitalization for respiratory syncytial virus infection. Pediatrics. 2014;134:415-20.

The multivariate analysis defined that atopic dermatitis, food allergy in the child, GA <28 weeks, and living with more than two children were risk factors for RW. This study confirmed that atopy is a risk factor associated with RW.

The smaller airway caliber related to GA is also one of the main risk factors associated with RW, as demonstrated by other authors.¹⁵15 Simões EA, Carbonell-Estrany X, Rieger CH, Mitchell I, Fredrick L, Groothuis JR. The effect of respiratory syncytial virus on subsequent recurrent wheezing in atopic and nonatopic children. J Allergy Clin Immunol. 2010;126:256-62.^,¹⁸18 Sonnenschein-van der Voort AM, Arends LR, de Jongste JC, Annesi-Maesano I, Arshad SH, Barros H, et al. Preterm birth infant weight gain, and childhood asthma risk: a meta-analysis of 147,000 European children. J Allergy Clin Immunol. 2014;133:1317-29.^,¹⁹19 Been JV, Lugtenberg MJ, Smets E, van Schayck CP, Kramer BW, Mommers M, et al. Preterm birth and childhood wheezing disorders: a systematic review and meta-analysis. PLoS Med. 2014;11:e1001596. This is confirmed by the higher prevalence of RW in children with lower gestational age, even though they are protected against severe RSV infection by the passive immunization against RSV.

Despite the use of standardized tools in similar populations, the prevalence and risk factors associated with RW may vary, thus demonstrating that there is an interference of genetic, environmental, and cultural factors in each studied population.

As a study limitation, the association between the severity of wheezing crises and evolution with RW was not analyzed because there was no documentation regarding the presence of RSV as a causal agent in these events.

The high number of children whose parents or guardians were not interviewed was due to the great difficulty in locating them through the contact phones found in the CAISM and CRIE databases, as these registers were created 2-3 years before the interviews.

☆
Please cite this article as: Simões MC, Inoue Y, Matsunaga NY, Carvalho MR, Ribeiro GL, Morais EO, et al. Recurrent wheezing in preterm infants: Prevalence and risk factors. J Pediatr (Rio J). 2019;95:720-7.
☆☆
Study conducted at Centro de Investigações em Pediatria (CIPED), Faculdade de Ciências Médicas (FCM), Universidade Estadual de Campinas (Unicamp), Campinas, SP, Brazil.

Acknowledgements

We would like to thank the staff at the Special Immunobiological Reference Center of Hospital das Clínicas of Unicamp for their support and collaboration in data collection.

References

¹
Mallol J, Solé D, Garcia-Marcos L, Rosario N, Aguirre V, Chong H, et al. Prevalence, severity, and treatment of recurrent wheezing during the first year of life: a cross-sectional study of 12,405 Latin American infants. Allergy Asthma Immunol Res. 2016;8:22-31.
²
Lotz MT, Moore ML, Peebles RS. Respiratory syncytial virus and reactive airway disease. Curr Top Microbiol Immunol. 2013;372:105-18.
³
Knudson CJ, Varga SM. The Relationship between respiratory syncytial virus and asthma. Vet Pathol. 2015;52:97-106.
⁴
Global initiative for asthma. Global strategy for asthma management and prevention; 2016. [cited 2016 Oct 24]. Available from: www.ginasthma.org
» www.ginasthma.org
⁵
Guilbert TW, Mauger DT, Lemanske RF. Childhood asthma-predictive phenotype. J Allergy Clin Immunol Pract. 2014;2:664-70.
⁶
Blencowe H, Cousens S, Chou D, Oestergaard M, Say L, Moller AB, et al. Born too soon: the global epidemiology of 15 million preterm births. Reproductive Health. 2013;10(Suppl 1):S2.
⁷
Jackson DJ. Early-life viral infections and the development of asthma: a target for asthma prevention?. Curr Opin Allergy Clin Immunol. 2014;14:131-6.
⁸
Collins PL, Graham BS. Viral and host factors in human respiratory syncytial virus pathogenesis. J Virol. 2008;82:2040-55.
⁹
Lambert L, Sagfors AM, Openshaw PJ, Culley FJ. Immunity to RSV in early-life. Front Immunol. 2014;5:466.
¹⁰
Chawes BL, Poorisrisak P, Johnston SL, Bisgaard H. Neonatal bronchial hyper responsiveness precedes acute severe viral bronchiolitis in infants. J Allergy Clin Immunol. 2012;130:354-61.
¹¹
American Academy of Pediatrics Committee on Infectious Disease; American Academy of Pediatrics Bronchiolitis Guidelines Committee. Updated guidance for Palivizumab prophylaxis among infants and young children at increased risk of hospitalization for respiratory syncytial virus infection. Pediatrics. 2014;134:415-20.
¹²
Simões EA, Groothuis JR, Carbonell-Estrany X, Rieger CH, Mitchell I, Fredrick LM, et al. Palivizumab prophylaxis, respiratory syncytial virus, and subsequent recurrent wheezing. J Pediatr. 2007;151:34-42, 42.e1.
¹³
Blanken MO, Rovers MM, Molenaar JM, Winkler-Seinstra PL, Meijer A, Kimpen JL, et al. Respiratory syncytial virus and recurrent wheeze in healthy preterm infants. N Engl J Med. 2013;368:1791-9.
¹⁴
Yoshihara S, Kusuda S, Mochizuki H, Okada K, Nishima S, Simões EA. Effect of Palivizumab prophylaxis on subsequent recurrent wheezing in preterm infants. Pediatrics. 2013;132:811-8.
¹⁵
Simões EA, Carbonell-Estrany X, Rieger CH, Mitchell I, Fredrick L, Groothuis JR. The effect of respiratory syncytial virus on subsequent recurrent wheezing in atopic and nonatopic children. J Allergy Clin Immunol. 2010;126:256-62.
¹⁶
Scheltema NM, Nibbelke EE, Pouw J, Blanken MO, Rovers MM, Naaktgeboren CA, et al. Respiratory syncytial virus prevention and asthma in healthy preterm infants: a randomised controlled trial. Lancet Respir Med. 2018;6:257-64.
¹⁷
Dela Bianca AC, Wandalsen GF, Miyagi K, Camargo L, Cezarin D, Mallol J, et al. International study of wheezing in infants (EISL): validation of written questionnaire for children aged below 3 years. J Investig Allergol Clin Immunol. 2009;19:35-42.
¹⁸
Sonnenschein-van der Voort AM, Arends LR, de Jongste JC, Annesi-Maesano I, Arshad SH, Barros H, et al. Preterm birth infant weight gain, and childhood asthma risk: a meta-analysis of 147,000 European children. J Allergy Clin Immunol. 2014;133:1317-29.
¹⁹
Been JV, Lugtenberg MJ, Smets E, van Schayck CP, Kramer BW, Mommers M, et al. Preterm birth and childhood wheezing disorders: a systematic review and meta-analysis. PLoS Med. 2014;11:e1001596.
²⁰
Fauroux B, Gouyon B, Roze C, Guillermet-Fromentin C, Glorieux I, Adamon L, et al. Respiratory morbidity of preterm infants of less than 33 weeks gestation without bronchopulmonary dysplasia: a 12-month follow-up of the CASTOR study cohort. Epidemiol Infect. 2014;142:1362-74.
²¹
Garcia-Marcos L, Mallol J, Solé D, Brand PL. EISL Study Group International study of wheezing in infants: risk factors in affluent and non-affluent countries during the first year of life. Pediatr Allergy Immunol. 2010;21:878-88.
²²
Bercedo-Sanz A, Lastra-Martínez L, Pellegrini-Belinchón J, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Wheezing and risk factors in the first year of life in Cantabria, Spain: the EISL study. Allergol Immunopathol (Madr). 2015;43:543-52.
²³
Pellegrini-Belinchón J, Miguel-Miguel G, De Dios-Martín B, Vicente-Galindo E, Lorente-Toledano F, García-Marcos L. Study of wheezing and its risk factors in the first year of life in the Province of Salamanca, Spain: the EISL study. Allergol Immunopathol (Madr). 2012;40:164-71.
²⁴
Kumar R, Tsai J, Hong X, Gignoux C, Pearson C, Ortiz K, et al. African ancestry, early life exposures, and respiratory morbidity in early childhood. Clin Exp Allergy. 2012;42:265-674.
²⁵
Fogaça HR, Marson FA, Toro AA, Solé D, Ribeiro JD. Epidemiological aspects of and risk factors for wheezing in the first year of life. J Bras Pneumol. 2014;40:617-25.
²⁶
Pérez-Yarza EG, Moreno-Galdó A, Ramilo O, Rubí T, Escribano A, Torres A, et al. Risk factors for bronchiolitis, recurrent wheezing, and related hospitalization in preterm infants during the first year of life. Pediatr Allergy Immunol. 2015;26:797-804.
²⁷
Burke H, Leonardi-Bee J, Hashim A, Pine-Abata H, Chen Y, Cook DG, et al. Prenatal and passive smoke exposure and incidence of asthma and wheeze: systematic review and meta-analysis. Pediatrics. 2012;129:735-44.
²⁸
Robison RG, Kumar R, Arguelles LM, Hong X, Wang G, Apollon S, et al. Maternal smoking during pregnancy, prematurity and recurrent wheezing in early childhood. Pediatr Pulmonol. 2012;47:666-73.
²⁹
Skromme K, Leversen KT, Eide GE, Markestad T, Halvorsen T. Respiratory illness contributed significantly to morbidity in children born extremely premature or with extremely low birth weights in 1999-2000. Acta Paediatr. 2015;104:1189-98.
³⁰
Aranda CS, Wandalsen GF, Mallol J, Solé D. Brazilian EISL Group. Wheezing and low birth weight. Pediatr Allergy Immunol. 2015;26:82-5.

Publication Dates

Publication in this collection
25 Nov 2019
Date of issue
Nov-Dec 2019

History

Received
23 Feb 2018
Accepted
11 June 2018
Published
20 July 2018

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivative License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

[1] ☆
Please cite this article as: Simões MC, Inoue Y, Matsunaga NY, Carvalho MR, Ribeiro GL, Morais EO, et al. Recurrent wheezing in preterm infants: Prevalence and risk factors. J Pediatr (Rio J). 2019;95:720-7.

[2] ☆☆
Study conducted at Centro de Investigações em Pediatria (CIPED), Faculdade de Ciências Médicas (FCM), Universidade Estadual de Campinas (Unicamp), Campinas, SP, Brazil.

		N	%
Number of children		445
Male gender		236	53.0
Ethnicity	White	305	68.5
	Black	132	29.7
	Asian	7	1.60
Informant: mother		356	80.0
Maternal schooling	Elementary school	93	21.2
	High school	200	45.7
	College/university	145	33.1
Use of Palivizumab		194	43.6
Wheezing in the first year		230	51.7
Hospital admissions for wheezing		95	21.3
Hospital admissions for pneumonia		71	16.0
RW in the first year of life		103	23.1
Recurrent wheezing		122	27.4
Use of bronchodilators		259	58.3
Use of inhaled corticosteroids		139	31.2
Use of oral corticosteroids		208	46.7
Medical diagnosis of asthma		95	21.3
		Median	IQR
Age at the interview (months)		39	8
Gestational age (weeks)		32	6
Birth weight (g)		1690	1217
Breastfeeding (months)		3.0	8
Age at the first wheezing crisis (months)		6.0	9

	Recurrent wheezing		Total	OR	95% CI	p
	N	%	Total	OR	95% CI	p
Gender
Male	65	27.5	236	1.01	0.67-1.54	0.949
Female	57	27.3	209	1.00
Ethnicity
Black	36	27.3	132	0.97	0.61-1.53	0.898
Asian	1	14.3	7	0.43	0.05-3.64	0.440
White	85	27.9	305	1.00
Maternal schooling
Elementary School	24	25.8	93	0.80	0.45-1.43	0.450
High School	51	25.5	200	0.79	0.49-1.26	0.321
College/University	44	30.3	145	1.00
Birth weight (g)
500-1000	32	40.0	80	2.38	1.33-4.27	0.004
1000-1500	34	29.8	114	1.52	0.88-2.63	0.136
1500-2000	20	22.2	90	1.02	0.55-1.90	0.949
>2000	35	21.9	160	1.00
Gestational age at birth (weeks)
24-27	29	48.3	60	3.35	2.57-15.51	<0.001
28-31	36	29.0	124	1.46	0.90-2.38	0.124
32-36	57	21.8	261
Breastfeeding (months)
Did not receive	41	34.2	120	1.85	0.95-3.62	0.072
≤3	24	22.6	106	1.04	0.51-2.14	0.909
3-6	26	27.4	95	1.34	0.66-2.74	0.419
6-12	15	29.4	51	1.48	0.65-3.37	0.344
>12	16	21.9	73	1.00
Daycare attendance
Yes	86	27.6	312	1.01	0.64-1.60	0.950
No	36	27.3	132	1.00
Exposure to pets
Yes	65	27.3	238	0.99	0.65-1.61	0.974
No	56	27.5	204	1.00
Number of children at the household
2 or more	43	35.8	120	1.76	1.05-2.95	0.032
1	36	23.4	154	0.96	0.57-1.61	0.880
0	40	24.1	166	1.00
Smoking during pregnancy
Yes	12	32.4	37	1.30	0.63-2.68	0.472
No	109	26.9	405	1.00
Caregiver smoking
Yes	20	23.0	87	0.75	0.43-1.30	0.307
No	101	28.5	355	1.00
Food allergy in child
Yes	16	43.2	37	2.17	1.09-4.31	0.027
No	106	26.0	408	1.00
Atopic dermatitis in child
Yes	20	45.5	44	2.44	1.29-4.61	0.006
No	101	25.4	397	1.00
Food allergy in parents
Yes	12	44.4	27	2.27	1.03-5.01	0.042
No	108	26.0	415	1.00
Asthma in parents
Yes	39	36.1	108	1.74	1.10-2.78	0.019
No	82	24.5	335	1.00
Use of Palivizumab
No	52	20.7	251	0.46	0.30-0.71	<0.001
Yes	70	36.1	194	1.00

	Adjusted OR	95% CI	p
Atopic dermatitis in child
Yes	2.96	1.51-5.80	0.002
No	100
Food allergy in child
Yes	2.56	1.20-5.43	0.015
No	1.00
Gestational age (weeks)
24 to 27	4.33	2.31-8.12	<0.001
28 to 31	1.49	0.87-2.53	0.145
32 to 36	1.00
Number of children
Two or more	2.05	1.18-3.56	0.011
One	0.94	0.54-1.63	0.828
None	1.00

Brasil

Brasil

ABSTRACT

Objective:

Methods:

Results:

Conclusions:

RESUMO

Objetivo:

Métodos:

Resultados:

Conclusões:

Introduction

Methods

Results

Discussion

Acknowledgements

References

Publication Dates

History