BackgroundMechanical ventilation is a complex topic that requires an in-depth understanding of the cardiopulmonary system, its associated pathophysiology and comprehensive knowledge of equipment capabilities.IntroductionThe use of telepresent faculty to train providers in the use of mechanical ventilation using medical simulation as a teaching methodology is not well established. The aim of this study was to compare the efficacy of telepresent faculty versus traditional in-person instruction to teach mechanical ventilation to medical students.Materials and methodsMedical students for this small cohort pilot study were instructed using either in-person instruction or telementoring. Initiation and management of mechanical ventilation were reviewed. Effectiveness was evaluated by pre- and post-multiple choice tests, confidence surveys and summative simulation scenarios. Students evaluated faculty debriefing using the Debriefing Assessment for Simulation in Healthcare Student Version (DASH-SV).ResultsA 3-day pilot curriculum demonstrated significant improvement in the confidence (in person P<0.001; telementoring P=0.001), knowledge (in person P<0.001; telementoring P=0.022) and performance (in person P<0.001; telementoring P<0.002) of medical students in their ability to manage a critically ill patient on mechanical ventilation. Participants favoured the in-person curriculum over telepresent education, however, resultant mean DASH-SV scores rated both approaches as consistently to extremely effective.DiscussionWhile in-person learners demonstrated larger confidence and knowledge gains than telementored learners, improvement was seen in both cases. Learners rated both methods to be effective. Technological issues may have contributed to students providing a more favourable rating of the in-person curriculum.ConclusionsTelementoring is a viable option to provide medical education to medical students on the fundamentals of ventilator management at institutions that may not have content experts readily available.
The demand for advanced practice providers (APPs) is increasing across the United States to meet necessary provider staffing requirements including in intensive care settings. Currently, participation in formal postgraduate training programs, or residencies, for APPs is not required for clinical practice, such that most of the APPs immediately enter into the workforce following completion of their initial graduate-level training. Consequently, this results in a supervised training period until APPs develop the necessary competencies to practice more autonomously. Educational programs that support specialty competency development may facilitate the transition of APPs into clinical practice, allowing them to be credentialed to perform essential procedures as quickly as possible. The goal of this boot camp was to provide training for APPs in common critical care, high-risk procedures, and to provide leadership development for high-risk cases to expedite their orientation process. The following manuscript describes our experience with the development, implementation, and short-term evaluation of this training program.
Introduction Traditional instruction for robotic surgery is typically devoid of training that addresses the delineation of interprofessional roles for operating room personnel. An emergency undocking scenario was developed for robotic surgeons with the objectives of improving time to access the patient, provider knowledge of and confidence in emergency undocking, completion of predetermined critical actions, and delineation of operating room personnel roles. Methods Over one month, participants joined in three sessions: Session 1 - formative, Session 2 - review, and Session 3 - summative. Embedded standardized participants (ESPs) represented members of the interprofessional team. Prior to entering the operating room for Sessions 1 and 3, trainees were asked to complete a confidence survey and multiple choice questionnaire (MCQ) for knowledge assessment. Participants were randomized to one of two cases and participated in the reciprocal case for the final session four weeks later. Following Session 1, participants underwent an educational intervention, including the proper technique for emergency undocking, emphasis on operating room personnel roles, and hands-on practice. Obstetrics and Gynecology (OBGYN) residents in post-graduate Years 2-4 and attending physicians with robotics privileges at Summa Health Akron Campus or Cleveland Clinic Akron General Medical Center were invited to participate. A total of 21 participants enrolled and finished the study. Results Among the 21 participants, there was a significant increase in the baseline level of knowledge (p-value=0.001) and in the confidence of surgeons when faced with an emergency undocking after the completion of our curriculum (p-value=0.003). Additionally, an improvement in the undocking times (p-value<0.001) and an increase in the critical actions performed (p-value=0.002) were observed. Conclusion The results of this study demonstrate that incorporating this curriculum into the training programs of robotic surgeons is an effective way to improve the surgical skill of emergency undocking.
Background: 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- Accepted ArticleThis article is protected by copyright. All rights reserved.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.
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