BACKGROUND: Asthma guidelines emphasize maintaining disease control. However, objective measures of asthma disease control are lacking. OBJECTIVE: We sought to examine the relationship between exhaled nitric oxide (NO) levels and measures of asthma disease control versus asthma disease severity. METHODS: We performed a cross-sectional study of 100 patients (age range, 7-80 years) with asthma. We administered a questionnaire to identify characteristics of asthma, performed spirometric testing before and after administration of a bronchodilator, and measured exhaled NO levels in all participants. RESULTS: Exhaled NO was significantly correlated with the following markers of asthma disease control: asthma symptoms within the past 2 weeks (P =.02), dyspnea score (P =. 02), daily use of rescue medications (P =.01), and reversibility of airflow obstruction (P =.02). Exhaled NO levels were not correlated with the following markers of asthma disease severity: history of respiratory failure (P =.20), health care use (P =.08), fixed airflow obstruction (P =.91), or a validated asthma severity score (P =.19). Markers with relevance to both disease control and severity showed either a weak correlation (FEV(1) and FEV(1) percent predicted) or no correlation (controller drug use) with exhaled NO. CONCLUSION: We conclude that exhaled NO levels are correlated predominantly with markers of asthma control rather than asthma severity. Monitoring of exhaled NO may be useful in outpatient asthma management.
BACKGROUND:Asthma guidelines emphasize maintaining disease control. However, objective measures of asthma disease control are lacking. OBJECTIVE: We sought to examine the relationship between exhaled nitric oxide (NO) levels and measures of asthma disease control versus asthma disease severity. METHODS: We performed a cross-sectional study of 100 patients (age range, 7-80 years) with asthma. We administered a questionnaire to identify characteristics of asthma, performed spirometric testing before and after administration of a bronchodilator, and measured exhaled NO levels in all participants. RESULTS: Exhaled NO was significantly correlated with the following markers of asthma disease control: asthma symptoms within the past 2 weeks (P =.02), dyspnea score (P =. 02), daily use of rescue medications (P =.01), and reversibility of airflow obstruction (P =.02). Exhaled NO levels were not correlated with the following markers of asthma disease severity: history of respiratory failure (P =.20), health care use (P =.08), fixed airflow obstruction (P =.91), or a validated asthma severity score (P =.19). Markers with relevance to both disease control and severity showed either a weak correlation (FEV(1) and FEV(1) percent predicted) or no correlation (controller drug use) with exhaled NO. CONCLUSION: We conclude that exhaled NO levels are correlated predominantly with markers of asthma control rather than asthma severity. Monitoring of exhaled NO may be useful in outpatientasthma management.
Authors: Stanley J Szefler; Herman Mitchell; Christine A Sorkness; Peter J Gergen; George T O'Connor; Wayne J Morgan; Meyer Kattan; Jacqueline A Pongracic; Stephen J Teach; Gordon R Bloomberg; Peyton A Eggleston; Rebecca S Gruchalla; Carolyn M Kercsmar; Andrew H Liu; Jeremy J Wildfire; Matthew D Curry; William W Busse Journal: Lancet Date: 2008-09-20 Impact factor: 79.321
Authors: Mary Elmasri; Karina M Romero; Robert H Gilman; Nadia N Hansel; Colin L Robinson; Lauren M Baumann; Lilia Cabrera; Robert G Hamilton; William Checkley Journal: Lung Date: 2014-01-12 Impact factor: 2.584
Authors: Jason S Debley; Elizabeth S Cochrane; Gregory J Redding; Edward R Carter Journal: Ann Allergy Asthma Immunol Date: 2012-06-26 Impact factor: 6.347