房屋火灾引起的吸入性伤害。

Journal of education & teaching in emergency medicine Pub Date : 2023-10-31 eCollection Date: 2023-10-01 DOI:10.21980/J8TW7N
Ryan O'Neill, Benjamin M Ostro, Jennifer Yee
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引用次数: 0

摘要

观众:这个场景是为了教育急诊医学的住院医师如何诊断和处理房屋火灾引起的吸入性气道损伤患者。背景:烧伤是急诊医师经常遇到的情况。根据国家医院门诊医疗调查,2020年,美国各地约有37.1万名患者因火灾或烧伤在急诊室接受治疗。这代表了与受伤、中毒或不良反应有关的急诊科就诊的约1%处理严重烧伤患者最危险和时间最关键的方面之一是吸入性损伤。吸入性损伤是一个相对模糊的术语,它可以指肺部接触各种形式的广泛化学物质。在烧伤患者的情况下,这通常是烟雾暴露。至关重要的是,急诊医学提供者迅速识别潜在的吸入性损伤,以确定最终气道管理的需要。同样重要的是,提供者有必要的技能和系统的方法来管理可能是困难的气道。此外,提供者必须了解如何在插管后最好地管理和复苏这些严重烧伤的患者。教学目标:在模拟课程结束时,学习者将能够:1)识别热烧伤/吸入性损伤患者的插管指征;2)对吸入性气道损伤制定系统的治疗方法;3)识别转移到烧伤中心的适应症。教学方法:本次会议采用高保真模拟进行,随后是关于房屋火灾引起的吸入性气道损伤的诊断、鉴别诊断和处理的情况汇报和讲座。汇报方法可能留给参与者的自由裁量权,但作者利用了倡导调查技术。这种情况也可以作为口头董事会案例进行。研究方法:我们的住院医生在汇报结束后会得到一份调查报告,这样他们就可以对模拟的不同方面进行评估,并对场景提供定性反馈。当地机构的模拟中心的电子反馈表格是基于医学模拟中心的医疗保健模拟汇报评估(DASH)学生版本简短表格2,如果一个元素的得分低于6或7,则包含必要的定性反馈。结果:9名学习者完成了一份反馈表格。除了一个单独的5分外,该课程获得了所有6分和7分(分别是持续有效/非常好和非常有效/出色)。讨论:这是一种具有成本效益的方法来回顾吸入性气道损伤的诊断和处理。病例可以根据目标受众、预期资源和学习目标进行修改,例如在资源有限的环境中切除支气管镜的可用性。一些读者可能会选择关注烧伤管理的其他方面,而不是气道安全,如氰化物和/或一氧化碳毒性。我们鼓励读者限制学习目标的数量,因为这个场景的气道算法和故障排除是一个丰富的,独立的汇报。没有足够的时间来详细回顾烧伤患者的所有细微方面,包括:lundd - browder与9的规则,修改布鲁克与帕克兰公式,痂切开术的适应症和完成,和/或氰化物和一氧化碳毒性的识别和治疗。主题:医学模拟,烧伤,气道急诊,急诊医学。
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Inhalational Injury Secondary to House Fire.

Audience: This scenario was developed to educate emergency medicine residents on the diagnosis and management of patients with an inhalational airway injury secondary to a house fire.

Background: Burn injuries are a common occurrence encountered by the emergency physician. According to the National Hospital Ambulatory Medical Care Survey, around 371,000 patients were treated in emergency departments for fire or burn injuries across the United States in 2020. This represents around 1% of emergency department visits related to injury, poisoning, or adverse effects.1 One of the most dangerous and time critical aspects of managing severely burned patients is inhalation injury. Inhalation injury is a relatively vague term which may refer to pulmonary exposure to a wide range of chemicals in various forms. In the context of burn patients, this is most often smoke exposure. It is critical that the emergency medicine provider rapidly identifies the potential for an inhalational injury in order to determine the need for definitive airway management. It is also important that the provider has the necessary skills and systematic approach to manage what is likely to be a difficult airway. Furthermore, providers must then have the knowledge of how to best manage and resuscitate these severely burned patients post-intubation.

Educational objectives: At the conclusion of the simulation session, learners will be able to: 1) recognize the indications for intubation in a thermal burn/inhalation injury patient; 2) develop a systematic approach to an inhalational injury airway; and 3) recognize indications for transfer to burn center.

Educational methods: This session was conducted using high-fidelity simulation, followed by a debriefing session and lecture on the diagnosis, differential diagnosis, and management of inhalational airway injury secondary to a house fire. Debriefing methods may be left to the discretion of participants, but the authors have utilized advocacy-inquiry techniques. This scenario may also be run as an oral board case.

Research methods: Our residents are provided a survey at the completion of the debriefing session so they may rate different aspects of the simulation, as well as provide qualitative feedback on the scenario. The local institution's simulation center's electronic feedback form is based on the Center of Medical Simulation's Debriefing Assessment for Simulation in Healthcare (DASH) Student Version Short Form2 with the inclusion of required qualitative feedback if an element was scored less than a 6 or 7.

Results: Nine learners completed a feedback form. This session received all 6 & 7 scores (consistently effective/very good and extremely effective/outstanding, respectively) other than one isolated 5 score.

Discussion: This is a cost-effective method for reviewing inhalational airway injury diagnosis and management. The case may be modified for targeted audiences, expected resources, and learning objectives, such as removal of a bronchoscope availability in settings which are expected to be resource-limited. Some readers may choose to focus on other aspects of burn management instead of airway securement such as cyanide and/or carbon monoxide toxicity. We encourage readers to limit the number of learning objectives because airway algorithms and troubleshooting for this scenario was a rich, stand-alone debriefing. There was not enough time to review in detail all nuanced aspects of the burned patient, including: Lund-Browder versus rule of 9's, modified Brooke versus Parkland formulas, indications for and completion of escharotomies, and/or identification and treatment of cyanide and carbon monoxide toxicity.

Topics: Medical simulation, burns, airway emergencies, emergency medicine.

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