Abstract
BackgroundThe purpose of this study was to use CT scanning with computational fluid dynamics to evaluate the mechanisms by which Bronchial Thermoplasty (BT) improves asthmatic symptoms.MethodsThe study was conducted in a university teaching hospital, experienced in performing BT. Imaging studies were performed before, and after, BT of the left lung, and prior to treatment of the right lung, which therefore acted as a control. On each occasion, two high-resolution CT scans were performed, one at full inspiration (TLC) and the other at Functional Residual Capacity (FRC). The study protocol was offered to 10 patients, all of whom met the definition of severe asthma, despite high dose inhaled corticosteroids and dual long acting bronchodilators.ResultsSignificant increases in airway luminal volume were observed on the treated side, compared with control, at both full inspiration (by 27%) and at FRC (by 17%). The ratio of distal airway volume to lung volume significantly increased on the treated side. The change in airway volume with inspiration from FRC increased by 48% on the treated side compared to 5% in the control lung, suggesting treatment increased airway distensibility. No effect was observed on airway wall thickness, nor air trapping. There was a trend towards correlation between the improvement in airway volume at TLC and improvement in symptoms.ConclusionThis study demonstrates that BT increases the luminal airway volume on the treated side compared to the control lung. We suggest that this is an important link between the airway smooth muscle atrophy demonstrated pathologically, and the improvement in symptoms observed clinically.
Highlights
The purpose of this study was to use computerised tomography (CT) scanning with computational fluid dynamics to evaluate the mechanisms by which Bronchial Thermoplasty (BT) improves asthmatic symptoms
Whilst most patients with asthma can expect to be well controlled with inhaled corticosteroids and bronchodilators [1], there remains a small group of patients, estimated
BT uses a radiofrequency catheter to cause atrophy of this airway smooth muscle [6]. This has been proven to Langton et al Respiratory Research (2019) 20:157 reduce asthma symptoms and asthma exacerbations in randomised control trials [7,8,9], but the improvements in lung function which might have been anticipated with such treatment, have either been non-existent [7,8,9] or modest [10]
Summary
The purpose of this study was to use CT scanning with computational fluid dynamics to evaluate the mechanisms by which Bronchial Thermoplasty (BT) improves asthmatic symptoms. BT uses a radiofrequency catheter to cause atrophy of this airway smooth muscle [6]. This has been proven to Langton et al Respiratory Research (2019) 20:157 reduce asthma symptoms and asthma exacerbations in randomised control trials [7,8,9], but the improvements in lung function which might have been anticipated with such treatment, have either been non-existent [7,8,9] or modest [10]. A further advantage of using CT scanning is that images can be acquired both at full inspiration and at end expiration, and computational fluid dynamics can be used to model the dynamic changes in the lung during respiration [12,13,14,15,16]
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