Small Airways Disease Affects Aerosol Deposition in Children with Severe Asthma: A Functional Respiratory Imaging Study.

IF 2 4区 医学 Q3 RESPIRATORY SYSTEM Journal of Aerosol Medicine and Pulmonary Drug Delivery Pub Date : 2024-12-01 Epub Date: 2024-09-04 DOI:10.1089/jamp.2024.0005
Wytse B van den Bosch, Elisabeth J Ruijgrok, Navid M Tousi, Harm A W M Tiddens, Hettie M Janssens
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Abstract

Background: Small airways disease (SAD) in severe asthma (SA) is associated with high disease burden. Effective treatment of SAD could improve disease control. Reduced end-expiratory flows (forced expiratory flow [FEF]25-75 and FEF75) are considered sensitive indicators of SAD. Inhaled medication should be delivered to the smaller peripheral airways to treat SAD effectively. Aerosol deposition is affected by structural airway changes. Little is known about the effect of SAD on aerosol delivery to the smaller peripheral airways. Functional respiratory imaging (FRI) is a validated technique using 3D reconstructed chest computed tomography (CT) and computational fluid dynamics to predict aerosol deposition in the airways. Aim: This study aims to compare central and peripheral (= small airways) deposition between children with SA and SAD and children with SA without SAD, with different inhaler devices and inhalation profiles. Methods: FRI was used to predict the deposition of beclomethasone/formoterol dry powder inhaler (DPI), beclomethasone/formoterol pressurized metered dose inhaler with valved holding chamber (pMDI/VHC), and salbutamol pMDI/VHC for different device-specific inhalation profiles in chest-CT of 20 children with SA (10 with and 10 without SAD). SAD was defined as FEF25-75 and FEF75 z-score < -1.645 and forced vital capacity (FVC) z-score > -1.645. No SAD was defined as forced expiratory volume (FEV)1, FEF25-75, FEF75, and FVC z-score > -1.645. The intrathoracic, central, and peripheral airways depositions were determined. Primary outcome was difference in central-to-peripheral (C:P) deposition ratio between children with SAD and without SAD. Results: Central deposition was significantly higher (∼3.5%) and peripheral deposition was lower (2.9%) for all inhaler devices and inhalation profiles in children with SAD compared with children without SAD. As a result C:P ratios were significantly higher for all inhaler devices and inhalation profiles, except for beclomethasone administered through DPI (p = .073), in children with SAD compared with children without SAD. Conclusion: Children with SA and SAD have higher C:P ratios, that is, higher central and lower peripheral aerosol deposition, than children without SAD. The intrathoracic, central, and peripheral deposition of beclomethasone/formoterol using DPI was lower than using pMDI/VHC.

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小气道疾病影响严重哮喘儿童的气溶胶沉积:功能性呼吸成像研究
背景:重症哮喘(SA)中的小气道疾病(SAD)与高疾病负担相关。有效治疗 SAD 可改善疾病控制。呼气末流量降低(强迫呼气流量 [FEF]25-75 和 FEF75)被认为是 SAD 的敏感指标。吸入药物应输送到较小的外周气道,以有效治疗 SAD。气溶胶沉积受气道结构变化的影响。人们对 SAD 对向较小的外周气道输送气溶胶的影响知之甚少。功能性呼吸成像(FRI)是一项经过验证的技术,使用三维重建胸部计算机断层扫描(CT)和计算流体动力学来预测气溶胶在气道中的沉积情况。目的:本研究旨在比较患有 SA 和 SAD 的儿童与患有 SA 但未患有 SAD 的儿童在使用不同吸入器设备和吸入情况下的中心和外周(= 小气道)沉积情况。方法:使用 FRI 对 20 名患有 SA(10 名患有 SAD,10 名未患有 SAD)的儿童的胸部 CT 进行预测,根据不同吸入装置的吸入情况预测倍氯米松/福莫特罗干粉吸入器 (DPI)、倍氯米松/福莫特罗加压计量吸入器(带阀容纳腔)(pMDI/VHC)和沙丁胺醇 pMDI/VHC 的沉积情况。SAD 的定义是 FEF25-75 和 FEF75 z-score < -1.645 以及强迫生命容量 (FVC) z-score >-1.645。无 SAD 的定义是用力呼气容积(FEV)1、FEF25-75、FEF75 和 FVC z 评分 >-1.645。测定胸腔内、中央和外周气道沉积物。主要结果是患有 SAD 的儿童与未患有 SAD 的儿童在中心与外周沉积物(C:P)比率上的差异。结果:与无 SAD 儿童相比,在所有吸入器装置和吸入情况下,SAD 儿童的中心沉积物明显较高(∼3.5%),而外周沉积物较低(2.9%)。因此,与非 SAD 儿童相比,SAD 儿童的所有吸入器装置和吸入曲线的 C:P 比值都明显较高,但通过 DPI 给药的倍氯米松除外(p = 0.073)。结论:与没有 SAD 的儿童相比,患有 SA 和 SAD 的儿童的 C:P 比值更高,即中心气溶胶沉积更高,外周气溶胶沉积更低。使用 DPI 的倍氯米松/福莫特罗的胸腔内、中心和外周沉积量低于使用 pMDI/VHC 的倍氯米松/福莫特罗的胸腔内、中心和外周沉积量。
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来源期刊
CiteScore
6.70
自引率
2.90%
发文量
34
审稿时长
>12 weeks
期刊介绍: Journal of Aerosol Medicine and Pulmonary Drug Delivery is the only peer-reviewed journal delivering innovative, authoritative coverage of the health effects of inhaled aerosols and delivery of drugs through the pulmonary system. The Journal is a forum for leading experts, addressing novel topics such as aerosolized chemotherapy, aerosolized vaccines, methods to determine toxicities, and delivery of aerosolized drugs in the intubated patient. Journal of Aerosol Medicine and Pulmonary Drug Delivery coverage includes: Pulmonary drug delivery Airway reactivity and asthma treatment Inhalation of particles and gases in the respiratory tract Toxic effects of inhaled agents Aerosols as tools for studying basic physiologic phenomena.
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