Resultant greenhouse gases from the use of inhaled corticosteroid based on Global Initiative for Asthma (GINA) guidelines: a primary care used case from Singapore.

IF 4.7 3区医学 Q1 PRIMARY HEALTH CARE

NPJ Primary Care Respiratory Medicine Pub Date : 2025-07-26 DOI:10.1038/s41533-025-00441-x

Ding Xuan Ng, Mabel Qi He Leow, Yi Ling Eileen Koh, Wai Keong Aau, Ngiap Chuan Tan

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Abstract

Inhaled corticosteroid (ICS) is recommended by Global Initiative for Asthma 2022 Guidelines for patients to attain asthma control. However, inhalational short-acting β2-agonist (SABA) is needed for reliever therapy and emits greenhouse gases (GHG). Despite evidence supporting ICS-formoterol's superior effectiveness as both maintenance and reliever therapy, and more recent guidelines as the preferred treatment option, some patients continue to be prescribed with ICS. The study aimed to quantify GHG from adults on ICS inhalers treated in primary care in Singapore, including their SABA use, and compare good versus suboptimal asthma control. Data from nine public primary care clinics in eastern Singapore were retrieved from the electronic medical records, comprising asthma-diagnosed patients aged 21 years and older. Records contained their demography, clinical diagnoses, asthma control test (ACT) scores and ICS (beclomethasone pMDI, budesonide DPI and fluticasone pMDI) dispensed from in-house pharmacies. Patients with ACT ≥ 20 were classified as having good asthma control. Total GHG resulting from ICS and SABA were calculated for pMDI or DPI inhalers. Between 2015 and 2023, patients on ICS decreased from 3647-2265, while proportion of well-controlled asthma improved from 53.6-82.5%. Annual GHG emissions showed substantial reductions: ICS-only emissions fell from 101,685-71,899 kgCO₂e, and ICS+SABA emissions decreased from 629,989-316,283 kgCO₂e. Individual patient emissions dropped from 173 kgCO₂e (2015) to 140 kgCO₂e (2023). Patients using Fluticasone propionate inhalers had the highest GHG emissions (227 kgCO₂e/year). Patients with suboptimal asthma control produced significantly higher GHG emissions, exceeding those with good control by 30 kgCO₂e /year (p < 0.001). GHG emissions declined with fewer ICS-treated patients over the years, accompanied by a reduction in per patient GHG emission. Suboptimal asthma control was associated with higher GHG, demonstrating the interdependency between asthma outcomes and environmental sustainability.

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基于全球哮喘倡议（GINA）指南的吸入皮质类固醇使用产生的温室气体：来自新加坡的初级保健用例

吸入皮质类固醇（ICS）被2022年全球哮喘倡议指南推荐用于患者实现哮喘控制。然而，吸入性短效β2激动剂（SABA）用于缓解治疗是必需的，并且会排放温室气体（GHG）。尽管有证据支持ICS-福莫特罗作为维持和缓解治疗的优越疗效，以及最近的指南作为首选治疗选择，但一些患者继续使用ICS。该研究旨在量化新加坡初级保健中接受ICS吸入器治疗的成人的温室气体排放，包括他们的SABA使用，并比较良好和次优哮喘控制。从电子医疗记录中检索了新加坡东部9个公共初级保健诊所的数据，其中包括21岁及以上的哮喘诊断患者。记录包括他们的人口统计、临床诊断、哮喘控制试验（ACT）分数和从内部药房分发的ICS（倍氯米松pMDI、布地奈德DPI和氟替卡松pMDI）。ACT≥20的患者为哮喘控制良好。对pMDI或DPI吸入器计算了ICS和SABA产生的温室气体总量。2015年至2023年间，接受ICS治疗的患者从3647人减少到2265人，而控制良好的哮喘患者比例从53.6-82.5%提高。年温室气体排放量大幅减少：仅ICS的排放量从101,685-71,899 kgCO2e下降，ICS+SABA的排放量从629,989-316,283 kgCO2e下降。个体患者排放量从173公斤二氧化碳当量（2015年）降至140公斤二氧化碳当量（2023年）。使用丙酸氟替卡松吸入器的患者温室气体排放量最高（227 kgCO2e/年）。哮喘控制不佳的患者产生的温室气体排放量显著高于控制良好的患者30 kgCO2e /年(p

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来源期刊

NPJ Primary Care Respiratory Medicine PRIMARY HEALTH CARE-RESPIRATORY SYSTEM

CiteScore

5.50

自引率

6.50%

发文量

审稿时长

10 weeks

期刊介绍： npj Primary Care Respiratory Medicine is an open access, online-only, multidisciplinary journal dedicated to publishing high-quality research in all areas of the primary care management of respiratory and respiratory-related allergic diseases. Papers published by the journal represent important advances of significance to specialists within the fields of primary care and respiratory medicine. We are particularly interested in receiving papers in relation to the following aspects of respiratory medicine, respiratory-related allergic diseases and tobacco control: epidemiology prevention clinical care service delivery and organisation of healthcare (including implementation science) global health.