Litcius/Paper detail

Reducing carbon footprint by switching to reusable soft-mist inhalers

Christer Janson, Jaime Hernando Platz, Stéphane Soulard, Sue Langham, Lindsay B. Nicholson, Elisabeth Sophia Hartgers-Gubbels

2023ERJ Open Research10 citationsDOIOpen Access PDF

Abstract

Objective Inhalation therapy is the cornerstone of COPD, together with non-pharmacological treatments. Long-acting muscarinic antagonists (LAMAs), alone or in combination with long-acting β-agonists (LABAs), are commonly used. Pressurised metered-dose inhalers (pMDIs), dry powder inhalers (DPIs) and soft-mist inhalers (SMIs) are used, each with different carbon footprints. This study aimed to assess the carbon footprint of hypothetically replacing LAMA or LAMA/LABA inhalers with an SMI, Respimat Reusable, within the same therapeutic class. Methods An environmental impact model was established to assess the change in carbon footprint of replacing pMDIs/DPIs with Respimat Reusable within the same therapeutic class (LAMA or LAMA/LABA) across 12 European countries and the USA over 5 years. Inhaler use for country and disease-specific populations was derived from international prescribing data and the associated carbon footprint (CO 2 equivalents (CO 2 e)) was identified from published sources. Results Over 5 years and across all countries, replacing LAMA inhalers with Spiriva Respimat Reusable reduced CO 2 e emissions by 13.3–50.9%, saving 93–6228 tonnes of CO 2 e in the different countries studied. Replacing LAMA/LABA inhalers with Spiolto Respimat Reusable reduced CO 2 e emissions by 9.5–92.6%, saving 31–50 843 tonnes of CO 2 e. In scenario analyses, which included total replacement of DPIs/pMDIs, consistent CO 2 e savings were estimated. Sensitivity analyses showed that results were sensitive to changes in several parameters including varying assumptions around reusability of inhalers and potential CO 2 e impact. Conclusion Replacement of pMDIs and DPIs with Respimat Reusable within the same therapeutic class would result in substantial reductions in CO 2 e emissions.

Topics & Concepts

Carbon footprintMedicineInhalerLamaFootprintMistGreenhouse gasCOPDAsthmaInternal medicineEcologyPhysicsBiologyMeteorologyPaleontologyInhalation and Respiratory Drug DeliveryChronic Obstructive Pulmonary Disease (COPD) ResearchAsthma and respiratory diseases