Asthma Clinical Trial
Official title:
Effect of Montelukast on the Airway Remodeling in Asthma Patients: Physiological-radiological Correlation
The distal lung contributes to asthmatic airway remodeling which is observed from early onset of the disease. Cysteinyl leukotrienes (CysLT) play important role in the pathogenesis of airway remodeling and antileukotrienes work to exert a certain degree of anti-inflammatory effect. The cysteinyl leukotriene antagonist Montelukast has been in vivo shown to significantly inhibit ovalbumin induced airway smooth muscle hyperplasia and subepithelial fibrosis in sensitized mice. This study aims to evaluate if Montelukast could reverse airway remodeling in asthma patients by a non-invasive approach-HRCT.
Accumulated data have suggested that the distal lung, which includes airways of < 2mm in
diameter and lung parenchyma, contribute to asthma pathogenesis and symptoms. In addition to
persisting inflammation, distal lung undergoes remodeling, as demonstrated by the reduced
elastic fiber content and abnormal alveolar attachments, with the latter thought to result
in a loss of elastic recoil and a reduction in FEV1.0. Furthermore, recent studies have
shown that airway remodeling is observed from early onset of the disease and may, therefore,
be characteristic of asthma. Amounting evidence has revealed that airway remodeling of
asthmatic airways accounts for a large component of airway hyperresponsiveness (AHR) and
excessive airway narrowing.
Since remodeling processes occur in parallel to, or may even be obligatory for, the
establishment of persistent inflammation, the pathogenesis of airway remodeling and the
implications of therapeutic interventions that are designed to diminish airway remodeling
remain important areas of both research and clinic. Inhale corticosteroid (ICS) is mainstay
for the treatment of asthma, however, ICS provides very little benefit for airway
remodeling.
Cysteinyl leukotrienes (CysLT) play important role in the pathogenesis of airway remodeling
and antileukotrienes work to exert a certain degree of anti-inflammatory effect. The
cysteinyl leukotriene antagonist Montelukast, for example, has been in vivo shown to
significantly inhibit ovalbumin induced airway smooth muscle hyperplasia and subepithelial
fibrosis in sensitized mice. Montelukast, a systemically delivered leukotriene receptor
antagonist, has been strongly recommended to treat asthma by several guidelines. Clinically,
the systemically acting oral agent montelukast has been shown to improve proximal and distal
lung physiology. In particular, improvements in distal lung function correlate with
improvements in asthma symptoms. The in vivo experiments performed in rodent animal
challenged by OVA have shown that Montelukast can reverse airway remodeling, as well as
inhibit inflammation.
To determine the occurrence of airway remodeling in human being, bronchial biopsy samples
obtained with a bronchoscope are subjected to histological examination. However, bronchial
biopsy is invasive and causes considerable pain, while assessment of the peripheral small
airways and of changes in the deep submucosal tissue and airway smooth muscle in large
airways is technically difficult. This technique does not allow the longitudinal analysis of
airway wall dimensions.
Noninvasive evaluation of airways by means of imaging with high-resolution computed
tomography (HRCT) has therefore been tried as an alternative procedure, and was found to
have the potential to evaluate airways in patients with obstructive pulmonary disease. The
measurement of airway wall thickness by HRCT in patients with asthma has been demonstrated
to correlate with the severity of asthma. Computed tomographic imaging of the airways by
HRCT has been widely applied to investigate the alterations in the structure of the airways
termed airway remodeling in patients with airway obstructive diseases (see references 1-4).
So far to our knowledge, there is no study aiming to evaluate if Montelukast could reverse
airway remodeling in asthma patients by HRCT.
Our encouraging preliminary data performed in 4 patients with moderate to severe asthma
according to GINA definition who received oral Montelukast for 3 months demonstrate with or
without combination of ICS+LABA that there were significant improvements in airway wall
thickness and air trapping evaluated by measurement of HRCT and lung function in patients
with oral Montelukast as compared with those without oral Montelukast. We adopted WA% and
WA/BSA to reflect the degree of airway thickness as published methods. We found that the
patients who received oral montelukast for 3 months experienced improvements in airway
remodeling. WA/BSA and WA% significantly decreased compared to the baseline.
The purpose of the proposal presented is to further examine, in a relatively large number of
patients, that Montelukast can improve the structural changes in the large airways and air
trapping by means of HRCT, and their relationship with pulmonary function in patients in
moderate to severe asthma.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Investigator), Primary Purpose: Treatment
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