Introduction Hyperleukocytosis, an infrequent presentation of new-onset leukemia, is a medical emergency requiring prompt recognition and treatment. It can include altered mental status, fever, critical electrolyte derangements, and coagulopathies. Due to the COVID-19 pandemic, this simulation was created as a telesimulation in order to adhere to mandatory physical distancing guidelines while addressing learning objectives. Methods This simulation was designed for pediatric emergency medicine fellows and featured a pediatric patient presenting with fever, altered mental status, and respiratory distress. After an initial assessment and appropriate workup, the patient developed tumor lysis syndrome, coagulopathies, and new-onset neurologic changes requiring appropriate interventions. A debriefing guide and participant evaluation form were utilized. Results This telesimulation was implemented at five different institutions, with evaluation surveys completed by 22 pediatric emergency medicine fellows. The scenario was rated on a 5-point Likert scale (1 = strongly disagree, 5 = strongly agree ) and was generally well received, with participants rating the simulation as effective in teaching the recognition ( M = 4.8) and management ( M = 4.6) of hyperleukocytosis. Participants felt that virtual telesimulation was effective compared to other distance learning methods ( M = 3.9). Discussion This simulation-based curriculum allows learners to practice identifying and managing hyperleukocytosis. We found that it was well received in both in-person and virtual formats.
For children undergoing procedural sedation in the ED, two in five children have high preprocedure anxiety and almost one in four have significant negative behaviors 1 to 2 weeks after discharge. Highly anxious and nonwhite children have increased risk of negative behavioral changes that have not been previously recognized in the ED setting.
Introduction: Serotonin syndrome is caused by an accumulation of serotonin in the body from drug interactions or overdose of serotonergic medications, including commonly used antidepressants. Symptoms can be life-threatening and encompass both neurologic and cardiovascular toxicity, including agitation, seizure, tachycardia, rhabdomyolysis, and hyperthermia. Methods: This simulation case was developed for pediatric emergency medicine fellows and emergency medicine residents in the pediatric emergency department and can be altered to accommodate other learners. The case involved a 16-year-old male, represented by a low-or high-fidelity manikin, who presented with altered mental status/agitation after an overdose of antidepressant medication. The team of learners was required to perform a primary and a secondary assessment; manage airway, breathing, and circulation; and recognize and initiate treatment for serotonin syndrome. The patient had a seizure resulting in airway compromise requiring advanced airway support, as well as developed rhabdomyolysis requiring aggressive fluid hydration. We created a debriefing guide and a participant evaluation form. Results: Fifty-seven participants across five institutions completed this simulation, which included residents, fellows, faculty, and students. The scenario was rated by participants using a 5-point Likert scale and was generally well received. Participants rated the simulation case as effective in learning how to both recognize (M = 4.9) and manage (M = 4.8) serotonin syndrome. Discussion: This pediatric emergency simulation scenario can be tailored for a range of learner backgrounds and simulation environments. We used the participant evaluation form to improve future iterations of the simulation.
Introduction: Diabetic ketoacidosis (DKA) is a life-threatening illness which classically presents with polyuria, polydipsia, and polyphagia that can rapidly progress to severe dehydration and altered mental status from cerebral edema. Younger patients may present with subtle or atypical symptoms that are critical to recognize and emergently act upon. Such patients are often cared for by teams in the emergency department (ED) requiring multidisciplinary collaboration. Methods: This simulation case was designed for pediatric emergency medicine fellows and residents. The case was a 14-month-old male who presented to the ED with respiratory distress and dehydration. The team was required to perform an assessment, manage airway, breathing and circulation, and recognize and initiate treatment for DKA including judicious fluid administration and an insulin infusion. The patient developed altered mental status with signs of cerebral edema requiring the initiation of cerebral protection strategies. We created a debriefing guide and a participant evaluation form. Results: Forty-two participants completed this simulation across seven institutions including attendings, residents, fellows, and nurses. The scenario was rated by participants on a 5-point Likert scale and was generally well received (M = 5.0). Participants rated the simulation case as effective in teaching how to recognize (M = 4.8) and manage (M = 4.5) DKA with cerebral edema in a pediatric patient. Discussion: This simulation represents a resource for learners in the pediatric ED in the recognition and management of a toddler with DKA and can be adapted to learners at all levels and tailored to various learning environments.
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