A45发展低碳护理——利用模拟计算和减少碳排放

Hannah Ames
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引用次数: 0

摘要

气候变化被认为是未来最紧迫的全球问题之一,也是最大的单一健康威胁[1]。医疗保健服务是造成气候危机的一个主要因素,目前产生的碳排放量占全球净排放量的4.4%[2]。NHS碳排放的最大贡献者之一是设备、耗材和临床护理本身的使用[2]。因此,临床工作人员在减少碳排放和实现国家碳减排目标方面发挥着重要作用。然而,他们必须具有碳知识,了解个人实践对全球碳排放的影响,并能够确定提供低碳医疗模式的方法[3]。通过系统思维方法,模拟可以在教育和发展卫生保健学生的可持续实践中发挥重要作用。允许学生研究医疗保健服务对环境的影响,并支持创新的解决方案,以减少碳排放,同时不影响医疗。目的是首先提高护理专业学生对患者护理过程中碳排放的认识。其次,改善临床决策选择和实施干预措施,以实现低碳护理的提供。护理专业本科生参与了一个特别设计的模拟场景。学生们完成了一名慢性阻塞性肺疾病(COPD)加重患者到急诊科就诊的场景,并根据临床指示实施护理和干预措施。完成模拟后,学生们使用可持续医疗碳排放计算中心计算他们使用的临床资源的碳排放量。汇报发现,学生在当前的临床决策中没有考虑可持续性和碳排放。学生们对干预产生的碳排放量感到震惊。学生们确定了可以在不影响护理的情况下减少碳排放的领域,如不适当使用手套、使用干粉吸入器和减少不必要的插管。模拟可以发挥关键作用,发展可持续的临床决策技能在医疗保健学生和工作人员。主动计算碳排放量可以让学生直接看到他们的实践对环境的影响,提高碳素养,刺激低碳护理实践。各行各业的教育工作者应该进一步探索这种模拟的应用,以支持国家和全球气候变化政策。作者确认已符合研究行为和传播的所有相关伦理标准。提交作者确认已获得相关的伦理批准(如适用)。
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A45 Developing low carbon care – using simulation to calculate and reduce carbon emissions
Climate change is considered one of the most pressing global concerns for the future and the single biggest health threat [1]. Healthcare delivery is a major contributor to the climate crisis, producing 4.4% of net carbon global emissions today [2]. One of the largest contributors to NHS carbon emissions is the use of equipment, consumables and clinical care itself [2]. Therefore, clinical staff have a significant part to play in reducing carbon emissions and achieving national carbon reduction targets. However, they must be carbon literate and understand the impact of personal practice on global carbon emissions and be able to identify ways to deliver low carbon models of care [3]. Simulation could play a significant role in educating and developing sustainable practice in healthcare students through a system thinking approach. Allowing students to examine the environmental impact of healthcare delivery and support innovative solutions to reduce carbon emissions without compromising care. The aim was to firstly increase nursing students’ awareness of the carbon emissions from the delivery of patient care. Secondly to improve clinical decision-making in the selection and implementation of interventions to enable the delivery of low carbon care. Undergraduate nursing students took part in a specifically designed simulation scenario. Students completed the scenario of a patient presenting to the Emergency Department with exacerbation of Chronic Obstructive Pulmonary Disease (COPD), implementing care and interventions as clinically indicated. After completion of the simulation students then calculated the carbon emissions from the clinical resources they used, using the Centre for Sustainable Healthcare carbon emissions calculation. Debriefing identified that students did not consider sustainability and carbon emissions in their current clinical decision-making. Students were shocked by the amount of carbon emissions generated from interventions. Students identified areas where they could reduce carbon emissions without compromising care such as inappropriate use of gloves, using dry powdered inhalers, and reducing unnecessary cannulation. Simulation could play a pivotal role in developing sustainable clinical decision-making skills in healthcare students and staff. Actively calculating carbon emissions allows students to directly see the environmental impact of their practice, increasing carbon literacy and stimulating low carbon care practice. This use of simulation should be explored further by educators across professions to support both national and global climate change policies. Authors confirm that all relevant ethical standards for research conduct and dissemination have been met. The submitting author confirms that relevant ethical approval was granted, if applicable.
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