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澳大利亚腹膜透析的碳足迹。

The Carbon Footprint of Peritoneal Dialysis in Australia.

机构信息

Sydney School of Public Health, University of Sydney, Sydney, New South Wales, Australia.

Department of Critical Care, Faculty of Medicine, Dentistry and Health Sciences, University of Melbourne, Parkville, Victoria, Australia.

出版信息

J Am Soc Nephrol. 2024 Aug 1;35(8):1095-1103. doi: 10.1681/ASN.0000000000000361. Epub 2024 Apr 26.

DOI:10.1681/ASN.0000000000000361
PMID:38671537
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11377804/
Abstract

KEY POINTS

Automated peritoneal dialysis (APD) had a higher carbon impact than continuous ambulatory peritoneal dialysis (CAPD). This was due to higher emissions from the manufacture and disposal of APD consumables, and their higher weight, meaning greater transport emissions. Polyvinyl chloride recycling can partially mitigate peritoneal dialysis–associated emissions.

BACKGROUND

As climate change escalates with increasing health impacts, health care must address its carbon footprint. The first critical step is understanding the sources and extent of emissions from commonly utilized clinical care pathways.

METHODS

We used attributional process-based life-cycle analysis to quantify CO equivalent emissions associated with the delivery of Baxter’s HomeChoice automated peritoneal dialysis (APD) and continuous ambulatory peritoneal dialysis (CAPD) in Australia.

RESULTS

The annual per-patient carbon emissions attributable to the manufacture and disposal of peritoneal dialysis (PD) fluids and consumables were 1992 kg CO equivalent emissions for APD and 1245 kg CO equivalent emissions for CAPD. Transport impacts varied depending on the distance between the site of manufacture of PD fluids and consumables and the state of origin of the patient. Therefore, the total impact of providing PD also differed by Australian state, ranging from 2350 to 4503 kg CO equivalent emissions for APD and from 1455 to 2716 kg CO equivalent emissions for CAPD. Recycling of polyvinyl chloride (PVC) could reduce emissions by up to 14% for APD and 30% for CAPD depending on the distance between the site of PVC waste generation and the recycling center.

CONCLUSIONS

This study demonstrated higher per-patient carbon emissions from APD compared with CAPD, owing to both higher fluid and consumable requirements and the consequent higher transport impacts. PVC recycling can partially mitigate PD-associated carbon emissions.

摘要

要点

自动化腹膜透析 (APD) 比持续不卧床腹膜透析 (CAPD) 的碳影响更大。这是由于 APD 耗材的制造和处置过程中排放的温室气体更多,以及其重量更重,这意味着运输过程中的排放量更大。聚氯乙烯 (PVC) 的回收利用可以部分减轻腹膜透析相关的排放。

背景

随着气候变化对健康的影响加剧,医疗保健必须解决其碳足迹问题。首要的关键步骤是了解常用临床护理途径的排放源和排放程度。

方法

我们使用归因过程基础生命周期分析来量化与澳大利亚 Baxter 的 HomeChoice 自动化腹膜透析 (APD) 和持续不卧床腹膜透析 (CAPD) 的交付相关的 CO 当量排放。

结果

腹膜透析 (PD) 液和耗材的制造和处置过程中,每个患者每年的碳排放量为 1992 公斤 CO 当量,APD 为 1992 公斤 CO 当量,CAPD 为 1245 公斤 CO 当量。运输影响取决于 PD 液和耗材的制造地与患者原籍地之间的距离。因此,提供 PD 的总影响也因澳大利亚州的不同而有所不同,APD 的范围为 2350 至 4503 公斤 CO 当量,CAPD 的范围为 1455 至 2716 公斤 CO 当量。聚氯乙烯 (PVC) 的回收利用可以将 APD 的排放量减少多达 14%,将 CAPD 的排放量减少多达 30%,具体取决于 PVC 废物产生地与回收中心之间的距离。

结论

与 CAPD 相比,APD 的每个患者的碳排放量更高,这是由于液体和耗材的需求更高,以及随之而来的更高的运输影响。PVC 回收可以部分减轻 PD 相关的碳排放。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/542d/11377804/ed6127ba25d7/jasn-35-1095-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/542d/11377804/ed6127ba25d7/jasn-35-1095-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/542d/11377804/ed6127ba25d7/jasn-35-1095-g001.jpg

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