Browsing by Author "Hughes, Patrick G."
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Item A Simulation-based PPE orientation training curriculum for novice physicians(Elsevier, 2023) Greaves, Spencer W.; Alter, Scott M.; Ahmed, Rami A.; Hughes, Kate E.; Doos, Devin; Clayton, Lisa M.; Solano, Joshua J.; Echeverri, Sindiana; Shih, Richard D.; Hughes, Patrick G.; Emergency Medicine, School of MedicineBackground: Personal protective equipment (PPE) is effective in preventing coronavirus disease (COVID-19) infection. Resident knowledge of proper use and effective training methods is unknown. We hypothesise that contamination decreases and knowledge increases after a formalised PPE educational session. Methods: Participants included first year interns during their residency orientation in June 2020. Before training, participants took a knowledge test, donned PPE, performed a simulated resuscitation, and doffed. A standardised simulation-based PPE training of the donning and doffing protocol was conducted, and the process repeated. Topical non-toxic highlighter tracing fluid was applied to manikins prior to each simulation. After doffing, areas of contamination, defined as discrete fluorescent areas on participants' body, was evaluated by ultraviolet light. Donning and doffing were video recorded and asynchronously rated by two emergency medicine (EM) physicians using a modified Centers for Disease Control and Prevention (CDC) protocol. The primary outcome was PPE training effectiveness defined by contamination and adherence to CDC sequence. Results: Forty-eight residents participated: 24 internal medicine, 12 general surgery, 6 EM, 3 neurology, and 3 psychiatry. Before training, 81% of residents were contaminated after doffing; 17% were contaminated after training (P<0.001). The most common contamination area was the wrist (50% pre-training vs. 10% post-training, P<0.001). Donning sequence adherence improved (52% vs. 98%, P<0.001), as did doffing (46% vs. 85%, P<0.001). Participant knowledge improved (62%-87%, P <0.001). Participant confidence (P<0.001) and preparedness (P<0.001) regarding using PPE increased with training. Conclusion: A simulation-based training improved resident knowledge and performance using PPE.Item Advanced closed-loop communication training: the blindfolded resuscitation(BMJ, 2019-12-20) Hughes, Kate E.; Hughes, Patrick G.; Cahir, Thomas; Plitt, Jennifer; Ng, Vivienne; Bedrick, Edward; Ahmed, Rami A.; Emergency Medicine, School of MedicineClosed-loop communication (CLC) improves task efficiency and decreases medical errors; however, limited literature on strategies to improve real-time use exist. The primary objective was whether blindfolding a resuscitation leader was effective to improve crisis resource management (CRM) skills, as measured by increased frequency of CLC. Secondary objectives included whether blindfolding affected overall CRM performance or perceived task load. Participants included emergency medicine (EM) or EM/paediatric dual resident physicians. Participants completed presurveys, were block randomised into intervention (blindfolded) or control groups, lead both adult and paediatric resuscitations and completed postsurveys before debriefing. Video recordings of the simulations were reviewed by simulation fellowship-trained EM physicians and rated using the Ottawa CRM Global Rating Scale (GRS). Frequency of CLC was assessed by one rater via video review. Summary statistics were performed. Intraclass correlation coefficient was calculated. Data were analysed using R program for analysis of variance and regression analysis. There were no significant differences between intervention and control groups in any Ottawa CRM GRS category. Postgraduate year (PGY) significantly impacts all Ottawa GRS categories. Frequency of CLC use significantly increased in the blindfolded group (31.7, 95% CI 29.34 to 34.1) vs the non-blindfolded group (24.6, 95% CI 21.5 to 27.7). Participant's self-rated perceived NASA Task Load Index scores demonstrated no difference between intervention and control groups via a Wilcoxon rank sum test. Blindfolding the resuscitation leader significantly increases frequency of CLC. The blindfold code training exercise is an advanced technique that may increase the use of CLC.Item Controversial COVID-19 Cures: Hydroxychloroquine and Oleander Pediatric Ingestion Simulation Cases(Springer, 2022-06-21) Solano, Joshua J.; Mendelsohn, Rebecca A.; Ahmed, Rami A.; Shih, Richard D.; Clayton, Lisa M.; Alter, Scott M.; Hughes, Patrick G.; Emergency Medicine, School of MedicineIntroduction: The use of hydroxychloroquine has dramatically increased since being touted as a potential therapeutic in combating coronavirus disease 2019 (COVID-19) caused by the SARS-CoV-2 virus. This newfound popularity increases the risk of accidental pediatric ingestion, whereby just one or two tablets causes morbidity and mortality from seizures, cardiac dysrhythmias, and cardiogenic shock. The unique management of hydroxychloroquine overdose makes it imperative for emergency medicine physicians to have familiarity with treating this condition. Similarly, during the COVID-19 pandemic, there have been publicized cases touting extracts of oleander as being a potential therapeutic against the illness. Since it is commonly available and potentially lethal ingestion with a possible antidote, we developed a simulation case based on the available literature. The two cases were combined to create a pediatric toxicology curriculum for emergency medicine residents and medical students. Both of these treatments were selected as simulation cases since they were being touted by prominent national figures as potential cures for COVID-19. Methods: Two series of simulation cases were conducted in a high-fidelity simulation lab with emergency medicine residents and medical students. The hydroxychloroquine simulation case involved the management of a four-year-old male who presented to the emergency department with nausea, vomiting, and tachycardia after ingesting hydroxychloroquine tablets. As the case unfolded, the child became increasingly unstable, eventually experiencing QT prolongation, torsades de pointes, and ventricular fibrillation arrest requiring appropriate resuscitation to achieve a return of spontaneous circulation. The oleander simulation case involved the management of a three-year-old male who presented to the emergency department with nausea, vomiting, and tachycardia after ingesting parts of an unknown plant. As that case progresses, the child becomes increasingly unstable, eventually experiencing atrial fibrillation, bradycardia, and degenerating into pulseless electrical activity and cardiac arrest requiring appropriate resuscitation to achieve the return of spontaneous circulation. Both series of simulation cases were modifiable based on trainee level and had the ability to include ancillary emergency department staff. Results: Each simulation case was performed six times at our simulation center, with a total of 22 learners for the hydroxychloroquine case, and 14 for the oleander case. Through pre- and post-simulation confidence assessments, learners demonstrated increases in knowledge of toxidromes, evaluating pediatric overdoses, treating cardiac dysrhythmias, performing pediatric advanced life support, and managing post-arrest care. Learners also demonstrated improvements in recognizing the unique treatment of hydroxychloroquine and oleander toxicity, the toxic dose of both substances in a child, and the most common electrolyte anomaly seen in each toxicity. Discussion: Simulation training enables learners to manage rare and complex disease processes. These cases were designed to educate trainees in recognizing and treating rare overdoses of emerging "therapeutics" that were touted early in the COVID-19 pandemic.Item Creation and Implementation of a Large-Scale Geriatric Interprofessional Education Experience(Hindawi, 2020-07-25) Mcquown, Colleen; Ahmed, Rami A.; Hughes, Patrick G.; Ortiz-Figueroa, Fabiana; Drost, Jennifer C.; Brown, Diane K.; Fosnight, Sue; Hazelett, Susan; Emergency Medicine, School of MedicineThe care of the older adult requires an interprofessional approach to solve complex medical and social problems, but this approach is difficult to teach in our educational silos. We developed an interprofessional educational session in response to national requests for innovative practice models that use collaborative interprofessional teams. We chose geriatric fall prevention as our area of focus as our development of the educational session coincided with the development of an interprofessional Fall Risk Reduction Clinic. Our aim of this study was to evaluate the number and type of students who attended a pilot and 10 subsequent educational sessions. We also documented the changes that occurred due to a Plan-Do-Study-Act (PDSA) rapid-cycle improvement model to modify our educational session. The educational session evolved into an online presession self-study didactic and in-person educational session with a poster/skill section, an interprofessional team simulation, and simulated patient experience. The simulated patient experience included an interprofessional fall evaluation, team meeting, and presentation to an expert panel. The pilot session had 83 students from the three sponsoring institutions (hospital system, university, and medical university). Students were from undergraduate nursing, nurse practitioner graduate program, pharmacy, medicine, social work, physical therapy, nutrition, and pastoral care. Since the pilot, 719 students have participated in various manifestations of the online didactic plus in-person training sessions. Ten separate educational sessions have been given at three different institutions. Survey data with demographic information were available on 524 participants. Students came from ten different schools and represented thirteen different health care disciplines. A large-scale interprofessional educational session is possible with rapid-cycle improvement, inclusion of educators from a variety of learning institutions, and flexibility with curriculum to accommodate learners in various stages of training.Item Disaster Day: A Simulation-Based Disaster Medicine Curriculum for Novice Learners(Sage, 2021-06-08) Gable, Brad D.; Misra, Asit; Doos, Devin M.; Hughes, Patrick G.; Clayton, Lisa M.; Ahmed, Rami A.; Emergency Medicine, School of MedicineBackground: Mass casualty and multi-victim incidents have increased in recent years due to a number of factors including natural disasters and terrorism. The Association of American Medical Colleges (AAMC) recommends that medical students be trained in disaster preparedness and response. However, a majority of United States medical students are not provided such education. Objective: The goal of this study was to evaluate the effectiveness of a 1 day, immersive, simulation-based Disaster Day curriculum. Settings and design: Learners were first and second year medical students from a single institution. Materials and methods: Our education provided learners with information on disaster management, allowed for application of this knowledge with hands-on skill stations, and culminated in near full-scale simulation where learners could evaluate the knowledge and skills they had acquired. Statistical analysis used: To study the effectiveness of our Disaster Day curriculum, we conducted a single-group pretest-posttest and paired analysis of self-reported confidence data. Results: A total of 40 first and second year medical students participated in Disaster Day as learners. Learners strongly agreed that this course provided new information or provided clarity on previous training, and they intended to use what they learned, 97.6% and 88.4%, respectively. Conclusions: Medical students' self-reported confidence of key disaster management concepts including victim triage, tourniquet application, and incident command improved after a simulation-based disaster curriculum. This Disaster Day curriculum provides students the ability to apply concepts learned in the classroom and better understand the real-life difficulties experienced in a resource limited environment.Item Evaluation of Technical Competency in Healthcare Simulation (E-TeCHS) tool: a modified Delphi study(BMJ, 2019-12-24) Hughes, Patrick G.; Atkinson, Steven Scott; Brown, Mira F.; Jenkins, Marjorie R.; Ahmed, Rami A.; Emergency Medicine, School of MedicineBackground: Graduates of simulation fellowship programmes are expected to have the ability to perform a variety of simulation specific skills at the time of graduation. Currently, simulation fellowship directors have access to tools to assess the ability of a fellow to debrief learners. However, there is no tool to assess a simulation fellow's competency in technical skills. The purpose of our manuscript was to develop and obtain content validation of a novel instrument designed to assess a simulation fellow's ability to perform the five core simulation technical skills. Methods: The study protocol was based on a methodology for content validation of curriculum consensus guidelines. This approach involves a three-step process, which includes the initial delineation of the curricular content. This was then followed by the validation of the curricular content using survey methodology and lastly obtaining consensus on modifications using Delphi methodology. Results: Two rounds of modified Delphi methodology were performed. Seventy-four respondents provided feedback on the round 1 survey and 45 respondents provided feedback on round 2. The final assessment tool has five elements and 16 subitems with four optional subitems. Conclusion: The Evaluation of Technical Competency in Healthcare Simulation tool provides an instrument developed from a national consensus of content experts. This tool provides simulation fellowship directors a method to evaluate fellows' competency in technical skills.Item Iatrogenic Critical Care Procedure Complication Boot Camp: A Simulation‐Based Pilot Study(Wiley, 2019) Riefkohl-Ortiz, Elaine; Frey, Jennifer A.; Yee, Jennifer; Gothard, M. David; Hughes, Patrick G.; Ballas, Derek A.; Ahmed, Rami A.; Emergency Medicine, School of MedicineBackground Traditional medical education strategies teach learners how to correctly perform procedures while neglecting to provide formal training on iatrogenic error management. Error management training (EMT) requires active exploration as well as explicit encouragement for learners to make and learn from errors during training. Simulation provides an excellent methodology to execute a curriculum on iatrogenic procedural complication management. We hypothesize that a standardized simulation‐based EMT curriculum will improve learner's confidence, cognitive knowledge, and performance in iatrogenic injury management. Methods This was a pilot, prospective, observational study performed in a simulation center using a curriculum developed to educate resident physicians on iatrogenic procedural complication management. Pre‐ and post‐intervention assessments included confidence surveys, cognitive questionnaires, and critical action checklists for six simulated procedure complications. Assessment data were analyzed using medians, interquartile ranges, and the paired change scores were tested for median equality to zero via Wilcoxon signed rank tests with p<0.05 considered statistically significant. Results Eighteen residents participated in the study curriculum. The median confidence increased significantly by a summed score of 12.5 (8.75 –17.25) (p<0.001). Similarly, the median knowledge significantly increased by 6 points (3 –8) from the pre‐ to post‐intervention assessment (p<0.001). For each of the simulation cases, the number of critical actions performed increased significantly (p<0.001 to p=0.002). Conclusion We demonstrated significant improvement in the confidence, clinical knowledge, and performance of critical actions after the completion of this curriculum. This pilot study provides evidence that a structured EMT curriculum is an effective method to teach management of iatrogenic injuries.Item National preparedness survey of pediatric intensive care units with simulation centers during the coronavirus pandemic(Baishideng Publishing Group, 2020-12-18) Abulebda, Kamal; Ahmed, Rami A.; Auerbach, Marc A.; Bona, Anna M.; Falvo, Lauren E.; Hughes, Patrick G.; Gross, Isabel T.; Sarmiento, Elisa J.; Barach, Paul R.; Pediatrics, School of MedicineBackground: The coronavirus disease pandemic caught many pediatric hospitals unprepared and has forced pediatric healthcare systems to scramble as they examine and plan for the optimal allocation of medical resources for the highest priority patients. There is limited data describing pediatric intensive care unit (PICU) preparedness and their health worker protections. Aim: To describe the current coronavirus disease 2019 (COVID-19) preparedness efforts among a set of PICUs within a simulation-based network nationwide. Methods: A cross-sectional multi-center national survey of PICU medical director(s) from children's hospitals across the United States. The questionnaire was developed and reviewed by physicians with expertise in pediatric critical care, disaster readiness, human factors, and survey development. Thirty-five children's hospitals were identified for recruitment through a long-established national research network. The questions focused on six themes: (1) PICU and medical director demographics; (2) Pediatric patient flow during the pandemic; (3) Changes to the staffing models related to the pandemic; (4) Use of personal protective equipment (PPE); (5) Changes in clinical practice and innovations; and (6) Current modalities of training including simulation. Results: We report on survey responses from 22 of 35 PICUs (63%). The majority of PICUs were located within children's hospitals (87%). All PICUs cared for pediatric patients with COVID-19 at the time of the survey. The majority of PICUs (83.4%) witnessed decreases in non-COVID-19 patients, 43% had COVID-19 dedicated units, and 74.6% pivoted to accept adult COVID-19 patients. All PICUs implemented changes to their staffing models with the most common changes being changes in COVID-19 patient room assignment in 50% of surveyed PICUs and introducing remote patient monitoring in 36% of the PICU units. Ninety-five percent of PICUs conducted training for donning and doffing of enhanced PPE. Even 6 months into the pandemic, one-third of PICUs across the United States reported shortages in PPE. The most common training formats for PPE were hands-on training (73%) and video-based content (82%). The most common concerns related to COVID-19 practice were changes in clinical protocols and guidelines (50%). The majority of PICUs implemented significant changes in their airway management (82%) and cardiac arrest management protocols in COVID-19 patients (68%). Simulation-based training was the most commonly utilized training modality (82%), whereas team training (73%) and team dynamics (77%) were the most common training objectives. Conclusions: A substantial proportion of surveyed PICUs reported on large changes in their preparedness and training efforts before and during the pandemic. PICUs implemented broad strategies including modifications to staffing, PPE usage, workflow, and clinical practice, while using simulation as the preferred training modality. Further research is needed to advance the level of preparedness, support staff assuredness, and support deep learning about which preparedness actions were effective and what lessons are needed to improve PICU care and staff protection for the next COVID-19 patient waves.Item A National US Survey of Pediatric Emergency Department Coronavirus Pandemic Preparedness(Wolters Kluwer, 2020-12-17) Auerbach, Marc A.; Abulebda, Kamal; Bona, Anna M.; Falvo, Lauren; Hughes, Patrick G.; Wagner, Michael; Barach, Paul R.; Ahmed, Rami A.; Emergency Medicine, School of MedicineObjective: We aim to describe the current coronavirus disease 2019 (COVID-19) preparedness efforts among a diverse set of pediatric emergency departments (PEDs) within the United States. Methods: We conducted a prospective multicenter survey of PED medical director(s) from selected children's hospitals recruited through a long established national research network. The questionnaire was developed by physicians with expertise in pediatric emergency medicine, disaster readiness, human factors, and survey development. Thirty-five children's hospitals were identified for recruitment through an established national research network. Results: We report on survey responses from 25 (71%) of 35 PEDs, of which 64% were located within academic children's hospitals. All PEDs witnessed decreases in non-COVID-19 patients, 60% had COVID-19-dedicated units, and 32% changed their unit pediatric patient age to include adult patients. All PEDs implemented changes to their staffing model, with the most common change impacting their physician staffing (80%) and triaging model (76%). All PEDs conducted training for appropriate donning and doffing of personal protective equipment (PPE), and 62% reported shortages in PPE. The majority implemented changes in the airway management protocols (84%) and cardiac arrest management in COVID patients (76%). The most common training modalities were video/teleconference (84%) and simulation-based training (72%). The most common learning objectives were team dynamics (60%), and PPE and individual procedural skills (56%). Conclusions: This national survey provides insight into PED preparedness efforts, training innovations, and practice changes implemented during the start of COVID-19 pandemic. Pediatric emergency departments implemented broad strategies including modifications to staffing, workflow, and clinical practice while using video/teleconference and simulation as preferred training modalities. Further research is needed to advance the level of preparedness and support deep learning about which preparedness actions were effective for future pandemics.Item Setup and Execution Of the Blindfolded Code Training Exercise(JoVE, 2019) Hughes, Patrick G.; Hughes, Kate E.; Ahmed, Rami A.; Emergency Medicine, School of MedicineMiscommunication is the most common cause of preventable patient harm in medicine. Currently, there is limited knowledge of innovative techniques to improve resident physician communication and leadership strategies in high-acuity situations. The blindfolded code training exercise removes visual stimuli from the team leader, forcing the team leader to effectively utilize closed-loop communication. The simple act of blindfolding the team leader creates a learning environment where the leader must utilize a conceptual framework and critical thinking strategies to organize the team and manage the resuscitation. An advantage to this teaching technique is that it does not require any special simulation equipment, making it a low-cost approach. The blindfolded code training exercise can be applied to the management of any critically ill patient where the primary objective is to focus on developing communication skills in acute resuscitations. The purpose of the description of the blindfolded code training exercise is to provide guidance on how to perform this innovative teaching technique to force effective closed-loop communication.