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Friday 01 September 2006

Urine leukotriene E4 levels are associated with decreased pulmonary function in children with persistent airway obstruction.

By: Rabinovitch N, Zhang L, Gelfand EW.

J Allergy Clin Immunol 2006 Sep;118(3):635-40

BACKGROUND: Use of leukotriene receptor antagonists improves disease control in children and adults with asthma. However, the relationship between cysteinyl leukotriene levels and indices of daily asthma control has not been studied directly. OBJECTIVES: We sought to assess the relationship between daily variability in urinary leukotriene E(4) (LTE(4)) levels and daily lung function in children primarily taking inhaled corticosteroids (ICSs) and long-acting beta-agonists (LABAs). METHODS: Fifty children primarily with moderate-to-severe asthma were followed with measurements of urinary LTE(4), monitoring of FEV(1), and albuterol use. RESULTS: Increasing urinary LTE(4) levels were associated with significant (P = .006) decreases in percent predicted FEV(1) (ppFEV(1)) averaging 4.7% per interquartile range increase in LTE(4) and accompanied by increased albuterol use (P = .03). Children with lower FEV(1)/forced vital capacity ratios demonstrated larger LTE(4)-related FEV(1) decreases (6.4%) compared to those with higher ratios (4.2%, P = .009). This association was blunted in children taking montelukast (1.4% ppFEV(1) decrease) compared with that in children not taking this medication (5.4% ppFEV(1) decrease, P = .05). Children with lower lung function ratios demonstrated greater blunting of the LTE(4) effect with montelukast (0.9% ppFEV(1) decrease) compared to those with higher ratios (3.6% ppFEV(1), P = .0002). CONCLUSIONS: Daily variability in LTE(4) levels is associated with clinically significant decreases in pulmonary function. In children who demonstrate a response associated with an increase in urinary LTE(4) levels, leukotriene receptor antagonists protect against daily FEV(1) decreases. This protection might be greatest in those with persistent airway obstruction despite use of ICS and LABA therapy. CLINICAL IMPLICATIONS: Therapies designed to block cysteinyl leukotriene production or function might benefit children receiving ICS and LABA therapy who continue to experience persistent disease.

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