使用定量吸入器进行支气管扩张剂反应性测试：澳大利亚的实验室实践及减少碳足迹的机会。

Use of metered dose inhalers for bronchodilator responsiveness testing: laboratory practices in Australia and opportunities for carbon footprint reduction.

作者信息

Loftus Michael J, Roberts Jayne, Romeo Nicholas, Matsas Pam, Leder Karin, Borg Brigitte, Miller Belinda R

机构信息

Health and Climate Initiative, Monash University Faculty of Medicine Nursing and Health Sciences, Melbourne, Victoria, Australia

Planetary Health Division, Monash University School of Public Health and Preventive Medicine, Melbourne, Victoria, Australia.

出版信息

BMJ Open Respir Res. 2024 Dec 18;11(1):e002478. doi: 10.1136/bmjresp-2024-002478.

DOI:10.1136/bmjresp-2024-002478

PMID:39694675

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11667395/

Abstract

BACKGROUND

Metered dose inhalers (MDIs) are important devices for delivering inhaled medications; however, they have an outsized carbon footprint due to their propellant gas. Many short-acting beta-agonist inhalers contain HFA-134a which has a global warming potential >1000 fold higher than carbon dioxide. We aimed to determine the practices around MDI use and disposal within Australia's major lung function testing laboratories and identify the actions that most influence the carbon footprint of bronchodilator responsiveness (BDR) testing.

METHODS

Australia's 45 accredited lung function laboratories were invited to participate in an online survey asking about their volume of BDR testing, as well as practices around MDI use such as the number of actuations per BDR test, reuse of MDIs between patients and disposal method. We calculated MDI-associated carbon dioxide equivalent (CO2e) emissions by combining previously published estimates.

RESULTS

39 laboratories completed the survey. Most laboratories used 4 actuations of salbutamol per BDR test for both adults (27/34, 79.4%) and children (17/20, 85%), but this ranged from 2 to 12. Only three (7.7%) laboratories did not routinely reuse MDIs between patients; however, they all sent their used MDIs for high-temperature incineration. Based on different combinations of observed MDI practices in Australia, we identified a potential sixfold difference in CO2e per 100 BDR tests, from as low as 23.3 kg CO2e up to 166 kg CO2e.

CONCLUSIONS

We identified three key practices to reduce the carbon footprint of BDR testing: disposing of MDIs via high-temperature incineration, reducing the number of actuations per BDR test and reusing MDIs between patients.

摘要

背景

定量吸入器（MDIs）是输送吸入药物的重要装置；然而，由于其推进气体，它们的碳足迹过大。许多短效β-激动剂吸入器含有HFA-134a，其全球变暖潜能值比二氧化碳高1000倍以上。我们旨在确定澳大利亚主要肺功能检测实验室中MDIs的使用和处置情况，并确定对支气管扩张剂反应性（BDR）检测碳足迹影响最大的行为。

方法

邀请澳大利亚45家获得认可的肺功能实验室参与一项在线调查，询问其BDR检测量，以及MDIs的使用情况，如每次BDR检测的按压次数、患者之间MDIs的重复使用情况和处置方法。我们通过结合先前发表的估计值来计算与MDIs相关的二氧化碳当量（CO2e）排放量。

结果

39家实验室完成了调查。大多数实验室在成人（27/34，79.4%）和儿童（17/20，85%）的每次BDR检测中使用4次沙丁胺醇按压，但次数范围为2至12次。只有三家（7.7%）实验室不在患者之间常规重复使用MDIs；然而，它们都将用过的MDIs送去进行高温焚烧。根据在澳大利亚观察到的MDIs使用情况的不同组合，我们发现每100次BDR检测的CO2e排放量可能相差六倍，低至23.3千克CO2e，高达166千克CO2e。

结论

我们确定了三项关键措施来减少BDR检测的碳足迹：通过高温焚烧处置MDIs、减少每次BDR检测的按压次数以及在患者之间重复使用MDIs。

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使用定量吸入器进行支气管扩张剂反应性测试：澳大利亚的实验室实践及减少碳足迹的机会。

Use of metered dose inhalers for bronchodilator responsiveness testing: laboratory practices in Australia and opportunities for carbon footprint reduction.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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