The Development of a Combined Pediatric Emergency Medicine and Point-of-Care Ultrasound Curriculum.

ABSTRACT: Point-of-care ultrasound (POCUS) use has grown rapidly in the field of pediatric emergency medicine (PEM). Despite its growth, there continues to be a need for leaders in PEM POCUS to support ongoing education and advancement of providers within this field. We have developed a novel combined PEM POCUS fellowship that has successfully produced one graduate and a second will graduate in June 2023. We describe the implementation of this model as a potential option that institutions could use as a framework to support other trainees. This could alleviate some barriers for future trainees who seek advanced POCUS training and advance this growing field.

Guiding Fellows to Independent Practice: Current Trends in Pediatric Emergency Medicine Fellow Supervision.

BACKGROUND: Recent studies highlight the importance of physician readiness to practice beyond graduate training. The Accreditation Council for Graduate Medical Education mandates that pediatric emergency medicine (PEM) fellows be prepared for independent practice by allowing "progressive responsibility for patient care." Prior unpublished surveys of program directors (PDs) indicate variability in approaches to provide opportunities for more independent practice during fellowship training. OBJECTIVES: The aims of the study were to describe practices within PEM fellowship programs allowing fellows to work without direct supervision and to identify any barriers to independent practice in training. DESIGN/METHODS: An anonymous electronic survey of PEM fellowship PDs was performed. Survey items were developed using an iterative modified Delphi process and pilot tested. Close-ended survey responses and demographic variables were summarized with descriptive statistics. Responses to open-ended survey items were reviewed and categorized by theme. RESULTS: Seventy two of 84 PDs (88%) responded to the survey; however, not all surveys were completed. Of the 68 responses to whether fellows could work without direct supervision (as defined by the Accreditation Council for Graduate Medical Education) during some part of their training, 31 (45.6%) reported that fellows did have this opportunity. In most programs, clinical independence was conditional on specific measures including the number of clinical hours completed, milestone achievement, and approval by the clinical competency committee. Reported barriers to fellow practice without direct oversight included both regulatory and economic constraints. CONCLUSIONS: Current training practices that provide PEM fellows with conditional clinical independence are variable. Future work should aim to determine best practices of entrustment, identify ideal transition points, and mitigate barriers to graduated responsibility.

Emergency Medicine Virtual Conference Participants' Engagement with Competing Activities.

INTRODUCTION: Residency didactic conferences transitioned to a virtual format during the COVID-19 pandemic. This format creates questions about effective educational practices, which depend on learner engagement. In this study we sought to characterize the competitive demands for learner attention during virtual didactics and to pilot methodology for future studies. METHODS: This was a prospective, observational, cohort study of attendees at virtual didactics from a single emergency medicine residency, which employed a self-report strategy informed by validated classroom assessments of student engagement. We deployed an online, two-question survey polling across six conference days using random signaled sampling. Participants reported all activities during the preceding five minutes. RESULTS: There were 1303 responses over 40 survey deployments across six nonadjacent days. Respondents were residents (63.4%); faculty (27.5%); fellows (2.3%); students (2%); and others (4.8%). Across all responses, about 85% indicated engagement in the virtual conference within the last five minutes of the polls. The average number of activities engaged in was 2.0 (standard deviation = 1.1). Additional activities included education-related (34.2%), work-related (21.1%), social (18.8%), personal (14.6%), self-care (13.4%), and entertainment (4.4%). CONCLUSION: Learners engage in a variety of activities during virtual didactics. Engagement appears to fluctuate temporally, which may inform teaching strategies. This information may also provide unique instructor feedback. This pilot study demonstrates methodology for future studies of conference engagement and learning outcomes.

Increasing Education Research Productivity: A Network Analysis.

INTRODUCTION: Forming effective networks is important for personal productivity and career development. Although critical for success, these networks are not well understood. The objective of this study was to usze a social network analysis tool to demonstrate the growth of institutional publication networks for education researchers and show how a single institution has expanded its publication network over time. METHODS: Publications from a single institution's medical education research group (MERG) were pulled since its inception in 2010 to 2019 using Web of Science to collect publication information. Using VOSViewer software, we formed and plotted a network sociogram comparing the first five years to the most recent 4.25 years to compare the institutions of authors from peer reviewed manuscripts published by this group. RESULTS: We found 104 peer-reviewed research articles, editorials, abstracts, and reviews for the MERG authors between 2010 and 2019 involving 134 unique institutions. During 2010-2014, there were 26 publications involving 56 institutions. From 2015-2019, there were 78 publications involving 116 unique institutions. CONCLUSION: This brief report correlates successful research productivity in medical education with the presence of increased inter-institutional collaborations as demonstrated by network sociograms. Programs to intentionally expand collaborative networks may prove to be an important element of facilitating successful careers in medical education scholarship.

Advances in Medical Education and Implications for the Pediatric Emergency Department.

The learning environment of the pediatric emergency department is composed of many layers that provide opportunity for intervention to improve the education of residents and medical students. Creating an intentional plan of targeted interventions at the levels of learner, teacher, and department can create a culture where education is highly regarded. This article briefly defines the learning environment and explores strategies for improving clinical teaching at these various levels through improved teacher-learner relationships, entrustment, and the implementation of teaching strategies that can be easily incorporated into the busy and time-stretched work of the pediatric emergency department.

Cognitive Debiasing Strategies: A Faculty Development Workshop for Clinical Teachers in Emergency Medicine.

Introduction: Medical decision-making is a cornerstone of clinical care and a key contributor to diagnostic accuracy. Medical decision-making occurs via two primary pathways: System 1, pattern recognition, is fast, intuitive, and heuristically driven and occurs largely unconsciously. System 2, analytic thinking, is slow, deliberate, and under conscious control. Biases are systematic errors that can impact reasoning via either pathway but predominantly affect decisions made by pattern recognition. Debiasing strategies involve the deliberate switching from pattern recognition to analytic thinking triggered by a stimulus. This resource describes a faculty development workshop designed to train emergency medicine educators about common biases and debiasing strategies, to improve teaching of diagnostic reasoning to trainees. Methods: This workshop was implemented at the 2017 Society for Academic Emergency Medicine Annual Meeting. The workshop consisted of a brief didactic, followed by small-group case-based learning. A retrospective survey and qualitative evaluation were administered to attendees. Results: The participants' self-assessment showed significant improvements (p < .001) in their abilities to recognize how pattern recognition can lead to bias, identify common types of bias in the emergency department, teach trainees about common types of bias, and apply cognitive debiasing strategies to improve diagnostic reasoning. Strengths of the workshop included the interactive case-based format, discussions of bias-mitigation strategies, and take-home resources. Suggestions for improvement included lengthening the discussion time and providing more cases. Discussion: Cognitive biases can negatively impact patient care. Faculty development is needed to improve instruction about bias and debiasing strategies for all levels of trainees.

Carotid Artery Dissection and Ischemic Stroke After Severe Coughing.

Vigorous coughing leading to internal carotid artery dissection has been described in the adult literature but has not been reported in the pediatric population. We describe an 8-year-old right-handed girl who had a 1-week history of increased work of breathing and vigorous coughing. She initially presented to her pediatrician's office for her respiratory symptoms which improved with steroid therapy and albuterol treatments. However, she developed evolving left-sided motor weakness over the course of 2 days and presented to our pediatric emergency department where she was found to have an ischemic stroke in the right corona radiata with a right internal carotid artery dissection.

Essentials of Pediatric Emergency Medicine Fellowship: Part 4: Beyond Clinical Education.

This article is the third in a 7-part series that aims to comprehensively describe the current state and future directions of pediatric emergency medicine fellowship training from the essential requirements to considerations for successfully administering and managing a program to the careers that may be anticipated upon program completion. This article focuses on the skills beyond clinical training required of pediatric emergency medicine physicians including teaching, leadership, teamwork, and communication.

Can You Multitask? Evidence and Limitations of Task Switching and Multitasking in Emergency Medicine.

Emergency physicians work in a fast-paced environment that is characterized by frequent interruptions and the expectation that they will perform multiple tasks efficiently and without error while maintaining oversight of the entire emergency department. However, there is a lack of definition and understanding of the behaviors that constitute effective task switching and multitasking, as well as how to improve these skills. This article reviews the literature on task switching and multitasking in a variety of disciplines-including cognitive science, human factors engineering, business, and medicine-to define and describe the successful performance of task switching and multitasking in emergency medicine. Multitasking, defined as the performance of two tasks simultaneously, is not possible except when behaviors become completely automatic; instead, physicians rapidly switch between small tasks. This task switching causes disruption in the primary task and may contribute to error. A framework is described to enhance the understanding and practice of these behaviors.

Implementation of an Education Value Unit (EVU) System to Recognize Faculty Contributions.

INTRODUCTION: Faculty educational contributions are hard to quantify, but in an era of limited resources it is essential to link funding with effort. The purpose of this study was to determine the feasibility of an educational value unit (EVU) system in an academic emergency department and to examine its effect on faculty behavior, particularly on conference attendance and completion of trainee evaluations. METHODS: A taskforce representing education, research, and clinical missions was convened to develop a method of incentivizing productivity for an academic emergency medicine faculty. Domains of educational contributions were defined and assigned a value based on time expended. A 30-hour EVU threshold for achievement was aligned with departmental goals. Targets included educational presentations, completion of trainee evaluations and attendance at didactic conferences. We analyzed comparisons of performance during the year preceding and after implementation. RESULTS: Faculty (N=50) attended significantly more didactic conferences (22.7 hours v. 34.5 hours, p<0.005) and completed more trainee evaluations (5.9 v. 8.8 months, p<0.005). During the pre-implementation year, 84% (42/50) met the 30-hour threshold with 94% (47/50) meeting post-implementation (p=0.11). Mean total EVUs increased significantly (94.4 hours v. 109.8 hours, p=0.04) resulting from increased conference attendance and evaluation completion without a change in other categories. CONCLUSION: In a busy academic department there are many work allocation pressures. An EVU system integrated with an incentive structure to recognize faculty contributions increases the importance of educational responsibilities. We propose an EVU model that could be implemented and adjusted for differing departmental priorities at other academic departments.

Model for Developing Educational Research Productivity: The Medical Education Research Group.

INTRODUCTION: Education research and scholarship are essential for promotion of faculty as well as dissemination of new educational practices. Educational faculty frequently spend the majority of their time on administrative and educational commitments and as a result educators often fall behind on scholarship and research. The objective of this educational advance is to promote scholarly productivity as a template for others to follow. METHODS: We formed the Medical Education Research Group (MERG) of education leaders from our emergency medicine residency, fellowship, and clerkship programs, as well as residents with a focus on education. First, we incorporated scholarship into the required activities of our education missions by evaluating the impact of programmatic changes and then submitting the curricula or process as peer-reviewed work. Second, we worked as a team, sharing projects that led to improved motivation, accountability, and work completion. Third, our monthly meetings served as brainstorming sessions for new projects, research skill building, and tracking work completion. Lastly, we incorporated a work-study graduate student to assist with basic but time-consuming tasks of completing manuscripts. RESULTS: The MERG group has been highly productive, achieving the following scholarship over a three-year period: 102 abstract presentations, 46 journal article publications, 13 MedEd Portal publications, 35 national didactic presentations and five faculty promotions to the next academic level. CONCLUSION: An intentional focus on scholarship has led to a collaborative group of educators successfully improving their scholarship through team productivity, which ultimately leads to faculty promotions and dissemination of innovations in education.

Accuracy of non-contact infrared thermometry versus rectal thermometry in young children evaluated in the emergency department for fever.

OBJECTIVE: We evaluated the accuracy of a non-contact infrared thermometer compared with a rectal thermometer. METHODS: Two hundred patients, ages 1 month to 4 years, were included in the study. Each child underwent contemporaneous standard rectal thermometry and mid forehead non-contact infrared thermometry. Clinical features, including chief complaint, recently administered antipyretic agents, and ambient temperature at the time of measurement, were included. ANALYSIS: Linear models were used to compare agreement between the 2 techniques, as well as to determine bias of infrared thermometry at different rectal temperatures. Multivariate linear models were used to evaluate the impact of clinical variables and ambient temperature. RESULTS: A linear relationship between rectal and infrared temperature measurements was observed; however, the coefficient of determination (r(2)) value between was only 0.48 (P < 0.01). Infrared thermometry tended to overestimate the temperature of afebrile children and underestimate the temperature of febrile patients (P < .01). Ambient temperature and child age did not affect the accuracy of the device. CONCLUSION: In this study, non-contact infrared thermometry did not sufficiently agree with rectal thermometer to indicate its routine use.