Small airway dysfunction (SAD) in asthma is characterized by the inflammation and narrowing of airways with less of 2 mm in diameter between generations 8 and 23 of the bronchial tree. It is now widely accepted that small airways are involved in the pathogenesis of asthma and are a major determinant of airflow obstruction in this disease. In recent years, specialized tests have been developed, such as Impulse Oscillometry (IOS) and Multiple Breath Nitrogen Washout (MBNW) tests, which have been deemed more accurate in detecting SAD than conventional spirometry. Clinical studies show that SAD is associated with more severe bronchial hyperresponsiveness, worse asthma control, and a higher risk of exacerbations. Recent data from a large cohort study showed that the prevalence of SAD in asthma patients increases with asthma severity. Overall, SAD seems to represent a treatable trait, which makes it appealing for asthma control optimization and exacerbation rate reduction, especially in moderate-to-severe asthma. Biologic agents are now available for the treatment of different severe asthma phenotypes and endotypes. However, the effect of these therapies on SAD remains poorly characterized. Literature showing that biologic agents can also favorably improve small airway function is accumulating. In particular, anti-IL5 agents (mepolizumab and benralizumab) seems to have a greater impact on SAD as compared to other biological agents, but direct comparisons in prospective randomized controlled trials are lacking. In this mini-review article, we address the latest evidence on the effect of biological therapies on SAD in patients with severe asthma.

Monoclonal antibodies targeting small airways: a new perspective for biological therapies in severe asthma / Lombardi, Carlo; Cottini, Marcello; Berti, Alvise; Comberiati, Pasquale. - In: ASTHMA RESEARCH AND PRACTICE. - ISSN 2054-7064. - 8:(2022), pp. 601-611. [10.1186/s40733-022-00088-2]

Monoclonal antibodies targeting small airways: a new perspective for biological therapies in severe asthma

Berti, Alvise
;
2022-01-01

Abstract

Small airway dysfunction (SAD) in asthma is characterized by the inflammation and narrowing of airways with less of 2 mm in diameter between generations 8 and 23 of the bronchial tree. It is now widely accepted that small airways are involved in the pathogenesis of asthma and are a major determinant of airflow obstruction in this disease. In recent years, specialized tests have been developed, such as Impulse Oscillometry (IOS) and Multiple Breath Nitrogen Washout (MBNW) tests, which have been deemed more accurate in detecting SAD than conventional spirometry. Clinical studies show that SAD is associated with more severe bronchial hyperresponsiveness, worse asthma control, and a higher risk of exacerbations. Recent data from a large cohort study showed that the prevalence of SAD in asthma patients increases with asthma severity. Overall, SAD seems to represent a treatable trait, which makes it appealing for asthma control optimization and exacerbation rate reduction, especially in moderate-to-severe asthma. Biologic agents are now available for the treatment of different severe asthma phenotypes and endotypes. However, the effect of these therapies on SAD remains poorly characterized. Literature showing that biologic agents can also favorably improve small airway function is accumulating. In particular, anti-IL5 agents (mepolizumab and benralizumab) seems to have a greater impact on SAD as compared to other biological agents, but direct comparisons in prospective randomized controlled trials are lacking. In this mini-review article, we address the latest evidence on the effect of biological therapies on SAD in patients with severe asthma.
2022
Lombardi, Carlo; Cottini, Marcello; Berti, Alvise; Comberiati, Pasquale
Monoclonal antibodies targeting small airways: a new perspective for biological therapies in severe asthma / Lombardi, Carlo; Cottini, Marcello; Berti, Alvise; Comberiati, Pasquale. - In: ASTHMA RESEARCH AND PRACTICE. - ISSN 2054-7064. - 8:(2022), pp. 601-611. [10.1186/s40733-022-00088-2]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/415933
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