Lung function and biomarkers of airway inflammation during and after hospitalization for acute exacerbations of childhood asthma associated with viral respiratory symptoms.

BACKGROUND There are limited data assessing relationships between biomarkers of inflammation and lung function after hospitalization for asthma exacerbations in children. OBJECTIVE To assess the associations in asthmatic children among changes in lung function, fraction of exhaled nitric oxide (FENO), and cysteinyl leukotrienes (CysLTs) in exhaled breath condensate (EBC) after hospitalization for acute asthma. METHODS Spirometry and FENO were measured and EBC collected for CysLT measurement from 40 children during and 1, 2, and 4 weeks after hospitalization for an asthma exacerbation and during a single-study visit for 40 healthy children. RESULTS Enrollment FENO and EBC CysLT concentrations were higher in the children with asthma than in healthy individuals (mean FENO, 31.6 vs 7 ppb; P < .0001; mean EBC CysLT, 7.9 vs 4.9 ppb; P = .03). Among children with asthma, improvement in lung function reached a plateau within 2 weeks after hospital discharge. The EBC CysLT concentrations were not associated with changes in lung function, use of albuterol, or use of inhaled corticosteroids (ICSs). Among asthmatic children enrollment FENO was not associated with changes in lung function during follow-up. However, among children who had an elevated enrollment FENO (≥25 ppb), patients who did not use ICSs after hospital discharge had lower end-of-study lung function than those who used ICSs. At 2 and 4 weeks after hospital discharge, FENO was higher among patients who reported albuterol use more than twice weekly and among patients who reported no ICS use. CONCLUSION FENO measured at hospital discharge among children hospitalized with acute asthma may be useful in identifying patients who will respond to ICS therapy.

[1]  I. Pavord,et al.  An official American Thoracic Society/European Respiratory Society statement: asthma control and exacerbations: standardizing endpoints for clinical asthma trials and clinical practice. , 2009, American journal of respiratory and critical care medicine.

[2]  C. Bucca,et al.  Oxidative stress and airway inflammation after allergen challenge evaluated by exhaled breath condensate analysis , 2010, Clinical and experimental allergy : journal of the British Society for Allergy and Clinical Immunology.

[3]  E. Baraldi,et al.  Treatment of concurrent OSA may benefit patients with heart failure , 2003, Thorax.

[4]  Barbara Bloom,et al.  Summary health statistics for U.S. children: National Health Interview Survey, 2012. , 2013, Vital and health statistics. Series 10, Data from the National Health Survey.

[5]  J. Ager,et al.  Evaluation of exhaled nitric oxide measurements in the emergency department for patients with acute asthma. , 2008, Annals of allergy, asthma & immunology : official publication of the American College of Allergy, Asthma, & Immunology.

[6]  Richard Coles,et al.  Summary health statistics for U.S. adults: national health interview survey, 2012. , 2014, Vital and health statistics. Series 10, Data from the National Health Survey.

[7]  M. Corradi,et al.  Leukotrienes and 8-isoprostane in exhaled breath condensate of children with stable and unstable asthma. , 2004, The Journal of allergy and clinical immunology.

[8]  K. Chung,et al.  Adenosine 5'-monophosphate increases levels of leukotrienes in breath condensate in asthma. , 2004, Respiratory medicine.

[9]  P. Barnes,et al.  Increased leukotrienes in exhaled breath condensate in childhood asthma. , 2002, American journal of respiratory and critical care medicine.

[10]  ATS/ERS recommendations for standardized procedures for the online and offline measurement of exhaled lower respiratory nitric oxide and nasal nitric oxide, 2005. , 2005, American journal of respiratory and critical care medicine.

[11]  A. Boner,et al.  Exaled nitric oxide and air trapping correlation in asthmatic children , 2005, Allergy.

[12]  Barbara Bloom,et al.  Summary health statistics for U.S. children: National Health Interview Survey, 2007. , 2009, Vital and health statistics. Series 10, Data from the National Health Survey.

[13]  Gardner Rm,et al.  Standardization of spirometry--1987 ATS update (American Thoracic Society) , 1988 .

[14]  G. Redding,et al.  Methods to improve measurement of cysteinyl leukotrienes in exhaled breath condensate from subjects with asthma and healthy controls. , 2007, The Journal of allergy and clinical immunology.

[15]  J. Cowan,et al.  Exhaled nitric oxide: a predictor of steroid response. , 2005, American journal of respiratory and critical care medicine.

[16]  Takao Shimizu,et al.  A multiplex quantitation method for eicosanoids and platelet-activating factor using column-switching reversed-phase liquid chromatography-tandem mass spectrometry. , 2005, Analytical biochemistry.

[17]  C. Sorkness,et al.  Relationship of exhaled nitric oxide to clinical and inflammatory markers of persistent asthma in children. , 2003, The Journal of allergy and clinical immunology.

[18]  H. Biernacka,et al.  Effect of montelukast on exhaled leukotrienes and quality of life in asthmatic patients. , 2005, Chest.

[19]  M. Badr,et al.  Exhaled nitric oxide levels during treatment in patients hospitalized with asthma. , 2008, Allergy and asthma proceedings.

[20]  Anthony Bosco,et al.  Interactions between Innate Antiviral and Atopic Immunoinflammatory Pathways Precipitate and Sustain Asthma Exacerbations in Children1 , 2009, The Journal of Immunology.

[21]  J. Spergel,et al.  Correlation of Exhaled Nitric Oxide, Spirometry and Asthma Symptoms , 2005, The Journal of asthma : official journal of the Association for the Care of Asthma.

[22]  Anthony Bosco,et al.  Decreased activation of inflammatory networks during acute asthma exacerbations is associated with chronic airflow obstruction , 2010, Mucosal Immunology.

[23]  J. Hankinson,et al.  Standardization of spirometry--1987 ATS update (American Thoracic Society) , 1988, Journal of occupational medicine. : official publication of the Industrial Medical Association.

[24]  G. Heldt,et al.  Response profiles to fluticasone and montelukast in mild-to-moderate persistent childhood asthma. , 2006, The Journal of allergy and clinical immunology.

[25]  C. Sorkness,et al.  Phenotypic predictors of long-term response to inhaled corticosteroid and leukotriene modifier therapies in pediatric asthma. , 2009, The Journal of allergy and clinical immunology.

[26]  Exhaled Nitric Oxide Measurements in Hospitalized Children with Asthma , 2008, The Journal of asthma : official journal of the Association for the Care of Asthma.

[27]  J. Priest,et al.  Exhaled nitric oxide levels correlate with measures of disease control in asthma. , 2000, The Journal of allergy and clinical immunology.

[28]  C. Kercsmar Exhaled nitric oxide in the diagnosis and management of childhood asthma , 2010, Therapeutic advances in respiratory disease.

[29]  William W Busse,et al.  Severe exacerbations and decline in lung function in asthma. , 2009, American journal of respiratory and critical care medicine.

[30]  M. Corradi,et al.  Exhaled breath condensate cysteinyl leukotrienes are increased in children with exercise-induced bronchoconstriction. , 2005, The Journal of allergy and clinical immunology.

[31]  P. Holt,et al.  Interactions between innate and adaptive immunity in asthma pathogenesis: new perspectives from studies on acute exacerbations. , 2010, The Journal of allergy and clinical immunology.

[32]  Alfred O. Berg,et al.  Clinical Guidelines And Primary Care Guidelines For The Diagnosis And Management Of Asthma , 2012 .

[33]  N. Zamel,et al.  Effect of montelukast on exhaled nitric oxide and nonvolatile markers of inflammation in mild asthma. , 2003, Chest.

[34]  J. Chládek,et al.  Analysis of exhaled leukotrienes in nonasthmatic adult patients with seasonal allergic rhinitis , 2005, Allergy.