Ventricular Tachycardia.

Journal of education & teaching in emergency medicine Pub Date : 2023-10-31 eCollection Date: 2023-10-01 DOI:10.21980/J8KD2R
Rohit Menon, Geremiha Emerson, Jennifer Yee
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引用次数: 0

Abstract

Audience: This scenario was developed to educate emergency medicine residents on the diagnosis and management of ventricular tachycardia (VT) that is refractory to single dose anti-arrhythmic management.

Background: Electrical storm, defined as three or more episodes of sustained VT, ventricular fibrillation, or appropriate shocks from an implantable cardioverter defibrillator within 24 hours,1 has a mortality rate up to 14% in the first 48 hours.2 Ventricular tachycardia may present in a heterogenous fashion, not only with stable versus unstable clinical presentations, but also with different electrocardiographic morphologies and etiologies.1 Understanding how to rapidly diagnose, treat, and utilize second or third-line treatments is vital in the setting of refractory ventricular tachycardia rather than relying on the success of first-line agents. Appreciation for what medications are readily available in your crash cart and medication dispensing cabinet is critical for timely management for refractory ventricular tachycardia.

Educational objectives: At the conclusion of the simulation session, learners will be able to: 1) identify the different etiologies of VT, including structural heart disease, acute ischemia, and acquired or congenital QT syndrome; 2) describe confounding factors of VT, such as electrolyte abnormalities and sympathetic surge; 3) describe how to troubleshoot an unsuccessful synchronized cardioversion, including checking equipment connections, increasing delivered energy, and changing pad placement; 4) compare and contrast treatments of VT based on suspected underlying etiology; 5) describe reasons to activate the cardiac catheterization lab other than occlusive myocardial infarction; and 6) identify appropriate disposition of the patient to the cardiac catheterization lab.

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 VT. 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.

Results: 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 Form3 with the inclusion of required qualitative feedback if an element was scored less than a 6 or 7. Twelve learners completed a feedback form. This session received 6 and 7 scores (consistently effective/very good and extremely effective/outstanding, respectively) other than three isolated 5 scores. The lowest average score was 6.67 for "Before the simulation, the instructor set the stage for an engaging learning experience." The highest average score was 7 for "The instructor helped me see how to improve or how to sustain good performance." The form also includes an area for general feedback about the case at the end. Illustrative examples of feedback include: "Excellent care and debrief." Specific scores are available upon request.

Discussion: This is a cost-effective method for reviewing VT diagnosis and management. The case may be modified for appropriate audiences, such as describing what medications may be readily available in a free-standing emergency department or pre-hospital setting.

Topics: Medical simulation, ventricular tachycardia, cardiac emergencies, dysrhythmias, cardiology, emergency medicine.

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室性心动过速。
观众:这个场景是为了教育急诊医学的住院医师关于单剂量抗心律失常治疗难治性室性心动过速(VT)的诊断和管理。背景:电风暴,定义为在24小时内出现三次或三次以上持续性室性心动过速、心室颤动或由植入式心律转复除颤器引起的适当电击1,在头48小时内死亡率高达14% 2室性心动过速可能以异质方式出现,不仅具有稳定与不稳定的临床表现,而且具有不同的心电图形态和病因了解如何快速诊断、治疗和利用二线或三线治疗对于难治性室性心动过速至关重要,而不是依赖一线药物的成功。对于难治性室性心动过速的及时治疗,了解急救车和药物配药柜中有哪些现成的药物是至关重要的。教学目标:在模拟课程结束时,学习者将能够:1)识别VT的不同病因,包括结构性心脏病、急性缺血和获得性或先天性QT综合征;2)描述VT的混杂因素,如电解质异常和交感电位激增;3)描述如何排除不成功的同步心律转复,包括检查设备连接,增加输送能量,改变垫的位置;4)根据疑似潜在病因对房颤的治疗方法进行比较对比;5)描述除闭塞性心肌梗死外,启动心导管实验室的原因;6)确定患者到心导管实验室的适当处置。教育方法:本次会议采用高保真模拟进行,随后是关于室速诊断、鉴别诊断和管理的汇报会议和讲座。汇报方法可能留给参与者自行决定,但作者采用了倡导询问技术。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。结果: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)学生版简短表格3,如果一个元素的得分低于6或7,则包含必要的定性反馈。12名学习者完成了一份反馈表格。除了3个单独的5分外,这个环节得到了6分和7分(分别是持续有效/非常好和非常有效/出色)。最低的平均分是6.67分,“在模拟之前,讲师为引人入胜的学习体验搭建了舞台。”在“教练帮助我了解如何提高或保持良好表现”一项中,平均得分最高的是7分。表单最后还包括一个区域,用于对案例进行一般性反馈。关于反馈的例子包括:“卓越的关怀和汇报。”具体分数可根据要求提供。讨论:这是一种具有成本效益的方法来回顾VT的诊断和管理。案例可根据适当的受众进行修改,例如描述在独立的急诊科或院前环境中可随时获得哪些药物。主题:医学模拟,室性心动过速,心脏急症,心律失常,心脏病学,急诊医学。
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