我的重症监护病房的碳足迹是多少？基准、热点问题及展望。

Which carbon footprint for my ICU? Benchmark, hot spots and perspectives.

作者信息

Bardoult Pierre, Cadic Elodie, Brichory Olivier, Marie Véronique, Rouxel Caroline, Millet Christophe, Daudin Magalie, Peguet Elodie, Massart Nicolas

机构信息

Service de Réanimation, CH de St BRIEUC, 10, Rue Marcel Proust, 22000, Saint-Brieuc, France.

Anesthesia and Intensive Care Department, Univ Rennes, CHU Rennes, Inserm, COSS 1242, F-35000, Rennes, France.

出版信息

Ann Intensive Care. 2025 Mar 20;15(1):35. doi: 10.1186/s13613-025-01445-z.

DOI:10.1186/s13613-025-01445-z

PMID:40113716

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11925816/

Abstract

BACKGROUND

The purpose of this study was to identify the main greenhouse gas (GHG) emitting activities or products among the medical devices (MD) and medicines used in a polyvalent Intensive Care Unit (ICU).

METHODS

A pragmatic eco-audit was conducted in a 21-beds polyvalent ICU, in Saint-Brieuc, Bretagne, France. It consisted of estimating GHG emissions of products or activities, considering process-based life cycle analysis (LCA), economic input-output analysis (EIO) and hybrid-LCA. Results were expressed as Carbon Dioxide Equivalent (COe) emissions per patient-day considering each medication and MD (including personal protective equipment).

RESULTS

With remaining uncertainty, GHG emissions were estimated at 61.1 kgCOe per patient-day. Two hundred and two individual MD were used per patient-day, equivalent to 5.1 kgCOe per patient-day (process-based LCA). Gloves accounted for the main part of kgCOe emissions (representing 1.8 kgCOe per patient-day). Then, syringes (1.1 kgCOe per patient-day), perfusion tubings (1.0 per patient-day) and gauze pads (0.4 kgCOe per patient-day) were the most important sources of MD related GHG emissions. Forty-seven individual medicines were used per patient-day. Most consumed medications were sterile water for injection, propofol, and sodium chlorure. The GHG emissions of medications were estimated with EIO-LCA at 21.5 kgCOe per patient-day, mostly due to injectable medicines (15.3 kgCOe per patient-day).

CONCLUSION

Upcoming studies focusing on actions on these particular hot spots would be of interest in order to significantly decrease GHG emissions but also to increase resilience of critical care.

摘要

背景

本研究旨在确定综合重症监护病房（ICU）中使用的医疗器械（MD）和药品中主要的温室气体（GHG）排放活动或产品。

方法

在法国布列塔尼圣布里厄的一间拥有21张床位的综合ICU中进行了一次务实的生态审计。审计包括根据基于过程的生命周期分析（LCA）、经济投入产出分析（EIO）和混合LCA估算产品或活动的温室气体排放量。结果以考虑每种药物和MD（包括个人防护设备）的每位患者每天的二氧化碳当量（COe）排放量表示。

结果

尽管仍存在不确定性，但估计每位患者每天的温室气体排放量为61.1千克COe。每位患者每天使用202种单独的MD，相当于每位患者每天5.1千克COe（基于过程的LCA）。手套占COe排放量的主要部分（每位患者每天1.8千克COe）。然后，注射器（每位患者每天1.1千克COe）、输液管（每位患者每天1.0千克）和纱布垫（每位患者每天0.4千克COe）是与MD相关的温室气体排放的最重要来源。每位患者每天使用47种单独的药物。使用最多的药物是注射用水、丙泊酚和氯化钠。药物的温室气体排放量通过EIO-LCA估计为每位患者每天21.5千克COe，主要是由于注射用药物（每位患者每天15.3千克COe）。

结论

未来聚焦于这些特定热点行动的研究将很有意义，以便显著减少温室气体排放，同时增强重症监护的恢复力。

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我的重症监护病房的碳足迹是多少？基准、热点问题及展望。

Which carbon footprint for my ICU? Benchmark, hot spots and perspectives.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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