深思熟虑地开具吸入性药物处方，有可能将与吸入器相关的温室气体排放量减少 85%。

Thoughtful prescription of inhaled medication has the potential to reduce inhaler-related greenhouse gas emissions by 85.

机构信息

Department of Pulmonary Medicine, Helsinki University Hospital Heart and Lung Center, Helsinki, Finland

University NHS Foundation Trust, UK, Manchester Academic Health Science Centre, University of Manchester, Manchester, UK.

出版信息

BMJ Open Respir Res. 2024 Sep 1;11(1):e001782. doi: 10.1136/bmjresp-2023-001782.

DOI:10.1136/bmjresp-2023-001782

PMID:39222967

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11428981/

Abstract

INTRODUCTION

Both physicians and patients are increasingly aware of the environmental impacts of medication. The shift of treatment paradigm towards MART-treatment (Maintenance and Reliever Therapy) in asthma affects the treatment-related emissions. The carbon footprint of inhaled medication is also tied to the type of the device used. Today the most commonly used propellant-containing pressurised metered-dose inhalers (pMDIs) have a carbon footprint typically 20-40-fold higher than propellant-free dry powder inhalers (DPIs) and soft mist inhalers.

METHODS

We analysed the carbon footprint of inhaled medications in Europe using published life cycle analyses of marketed inhalers and comprehensive 2020 European sales data. In addition, we give an estimate on treatment-related emissions of different treatment regimens on Global Initiative for Asthma (GINA) step 2.

RESULTS

There is potential to reduce the carbon footprint of inhaled medications by 85% if DPIs are preferred over pMDIs. Emissions from pMDIs in the EU were estimated to be 4.0 megatons of carbon dioxide equivalent (MT COe) and this could be reduced to 0.6 MT COe if DPIs were used instead. In the treatment of moderate asthma with DPI, an as-needed combination of inhaled corticosteroid and long-acting beta-agonist in a single inhaler had a substantially lower annual carbon footprint (0.8 kg COe) than the more traditional maintenance therapy with an inhaled corticosteroid alone with as-needed short-acting beta-agonist (2.9 kg COe).

DISCUSSION

There has been an urgent call for healthcare to reduce its carbon footprint for appropriate patients with asthma and chronic obstructive pulmonary disease (COPD), changing to non-propellant inhalers can reduce the carbon footprint of their treatment by almost 20-fold.

摘要

简介

医生和患者越来越意识到药物对环境的影响。哮喘治疗模式向 MART 治疗（维持和缓解治疗）的转变影响了与治疗相关的排放。吸入药物的碳足迹也与所使用的装置类型有关。如今，最常用的含推进剂的压力定量吸入器（pMDI）的碳足迹通常比无推进剂的干粉吸入器（DPI）和软雾吸入器高 20-40 倍。

方法

我们使用已发表的市售吸入器的生命周期分析和 2020 年全面的欧洲销售数据，分析了欧洲吸入药物的碳足迹。此外，我们还对全球哮喘倡议（GINA）第 2 步中不同治疗方案的治疗相关排放进行了估计。

结果

如果首选 DPI 而不是 pMDI，则吸入药物的碳足迹有潜力减少 85%。欧盟 pMDI 的排放量估计为 40 万吨二氧化碳当量（MT COe），如果改用 DPI，则可减少到 0.6 MT COe。在中重度哮喘的治疗中，按需使用吸入皮质激素和长效β激动剂的复方 DPI 的年碳足迹（0.8 公斤二氧化碳当量）显著低于单独使用吸入皮质激素和按需使用短效β激动剂的传统维持治疗（2.9 公斤二氧化碳当量）。

讨论

已经紧急呼吁医疗保健为适当的哮喘和慢性阻塞性肺疾病（COPD）患者减少其碳足迹，改用非推进剂吸入器可以将其治疗的碳足迹减少近 20 倍。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6491/11428981/8e6a8f197d8b/bmjresp-11-1-g001.jpg

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深思熟虑地开具吸入性药物处方，有可能将与吸入器相关的温室气体排放量减少 85%。

Thoughtful prescription of inhaled medication has the potential to reduce inhaler-related greenhouse gas emissions by 85.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

简介

方法

结果

讨论

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