优化护理途径对麻醉咨询碳影响的潜在影响-一项单中心前瞻性研究。

IF 3.7 3区医学 Q1 ANESTHESIOLOGY

Anaesthesia Critical Care & Pain Medicine Pub Date : 2025-01-01 DOI:10.1016/j.accpm.2024.101462

Pierre Mora, Aurélie Villette, Oriane Saint Aubin, Elodie Mace, Michael Bonsey, Bruno Pastene, Foucauld Isnard, Aude Charvet, Marc Leone, Laurent Zieleskiewicz

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引用次数: 0

摘要

背景：全球变暖带来了重大的公共卫生挑战，医疗运输对二氧化碳当量排放（eCO2）贡献巨大。虽然麻醉气体的温室效应有充分的证据，但麻醉前咨询的eCO2仍未得到充分探讨。本研究旨在评估和提出战略，以减少这些咨询在第三大学医院的碳影响。方法：在一项为期一个月的前瞻性观察性研究中，从参加麻醉前咨询的患者中收集数据。计算了交通和电力的ECO2排放量。为了减少排放，研究人员对护理路径进行了一些修改，包括远程会诊、远程会诊、分组会诊、拼车和促进公共交通。然后比较当前和优化护理途径的效果。结果：213例患者的数据显示，75%的患者仅仅是为了麻醉前会诊而去医院就诊，其中大部分是坐车（82%）。每次咨询的平均eCO2为22.4 kgCO2 （95% CI: 14.6-30.2）。在65%的案例中实施优化策略可以将每次咨询的排放量减少到5.6公斤二氧化碳（95% CI: 0.2-10.9），从而减少74%，每年节省274吨eCO2。讨论：我们的研究强调了麻醉前会诊eCO2显著降低的潜力。护理途径的调整将主要涉及分组咨询和发展远程咨询。这些潜在的温室气体减排与在手术室中不使用地氟醚在同一数量级上，可能是迈向绿色麻醉的下一步。

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Potential impacts of optimised care pathways on carbon impact of anaesthesia consultation—A monocenter prospective study

Background

Global warming presents major public health challenges, with healthcare transportation significantly contributing to carbon dioxide equivalent emissions (eCO₂). While the greenhouse effects of anaesthetic gases are well-documented, the eCO₂ of pre-anaesthesia consultations remains underexplored. This study aims to evaluate and propose strategies to reduce the carbon impact of these consultations at a Tertiary University Hospital.

Methods

In a prospective, observational study over one month, data were collected from patients attending pre-anaesthesia consultations. ECO2 emissions from transportation and electricity were calculated. To reduce emissions, several modifications to the care pathway were investigated, including teleconsultation, remote consultation, grouping of consultations, carpooling, and the promotion of public transport. The effects of current and optimised care pathways were then compared.

Results

Data from 213 patients showed that 75% attended the hospital solely for pre-anaesthesia consultations, mostly by car (82%). The mean eCO₂ per consultation was 22.4 kgCO2 (95% CI: 14.6–30.2). Implementing optimisation strategies in 65% of cases could reduce emissions to 5.6 kg CO₂ (95% CI: 0.2–10.9) per consultation, leading to a 74% reduction and an annual saving of 274 t of eCO₂.

Discussion

Our study highlights the potential for significant reductions in the eCO₂ of pre-anaesthesia consultations. The adaptation of the care pathway would largely involve grouping consultations and developing teleconsultations. These potential savings in greenhouse gas emissions are in the same order of magnitude as not using desflurane in the operating theatre and could be the next step towards greener anaesthesia.

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来源期刊

Anaesthesia Critical Care & Pain Medicine ANESTHESIOLOGY-

CiteScore

6.70

自引率

5.50%

发文量

150

审稿时长

18 days

期刊介绍： Anaesthesia, Critical Care & Pain Medicine (formerly Annales Françaises d''Anesthésie et de Réanimation) publishes in English the highest quality original material, both scientific and clinical, on all aspects of anaesthesia, critical care & pain medicine.