The 2024 French guidelines for scenario design in simulation-based education: manikin-based immersive simulation, simulated participant-based immersive simulation and procedural simulation.

BACKGROUND: Simulation-based education in healthcare encompasses a wide array of modalities aimed at providing realistic clinical experiences supported by meticulously designed scenarios. The French-speaking Society for Simulation in Healthcare (SoFraSimS) has developed guidelines to assist educators in the design of scenarios for manikin- or simulated participant- based immersive simulation and procedural simulation, the three mainly used modalities. METHODS: After establishing a French-speaking group of experts within the SoFraSimS network, we performed an extensive literature review with theory-informed practices and personal experiences. We used this approach identify the essential criteria for practice-based scenario design within the three simulation modalities. RESULTS: We present three comprehensive templates for creating innovative scenarios and simulation sessions, each tailored to the specific characteristics of a simulation modality. The SoFraSimS templates include five sections distributed between the three modalities. The first section contextualizes the scenario by describing the practicalities of the setting, the instructors and learners, and its connection to the educational program. The second section outlines the learning objectives. The third lists all the elements necessary during the preparation phase, describing the educational method used for procedural simulation (such as demonstration, discovery, mastery learning, and deliberate practice). The fourth section addresses the simulation phase, detailing the behaviors the instructor aims to analyze, the embedded triggers, and the anticipated impact on simulation proceedings (natural feedback). This ensures maximum control over the learning experience. Finally, the fifth section compiles elements for post-simulation modifications to enhance future iterations. CONCLUSION: We trust that these guidelines will prove valuable to educators seeking to implement simulation-based education and contribute to the standardization of scenarios for healthcare students and professionals. This standardization aims to facilitate communication, comparison of practices and collaboration across different learning and healthcare institutions.

'What this article adds'1. The SoFraSimS provides guidelines to facilitate the development of simulation-based activities.2. These guidelines are theory-informed as well as evidence and experience-based.3. A detailed approach to writing a complete activity or scenario for procedural and immersive simulation including manikins or simulated participants is provided (the 'SoFraSimS templates').4. This work aims at standardizing practices and exchanging scenarios between simulation centers.

The role of extended reality in optometry education: a narrative review.

The evolution of digitally based pedagogies, such as extended reality (XR) - a group of simulated learning environments that include virtual simulation, virtual reality, and augmented reality - has prompted optometry educators to seek evidence to guide the implementation of these teaching and learning activities within their curricula. Looking more broadly across the medical and allied health fields, there is a wealth of evidence to guide the incorporation of XR, as it is increasingly being integrated into the curricula of other select health professions disciplines. Educators from these disciplines continue to explore and embed XR in practice. This narrative review summarises the findings and appraises the literature on the use of XR in optometry education. It identifies the learning domains in which XR has been implemented in optometry education and proposes areas for further investigation. The review questions the technology-focused approach that has driven the literature within the review and calls for richer pedagogical foundations with suggestions for future research agendas. As such, this narrative review provides optometry educators with new ways of understanding XR and its relationship with the curriculum.

Exploring preparation practices of nursing and midwifery educators for in situ simulation-based education: A qualitative study in a large healthcare service.

AIM: This study aimed to explore nursing and midwifery clinical educators' preparation practices related to in situ simulation-based education, at a tertiary health service in Australia. BACKGROUND: Simulation-based education is routinely used in healthcare education and training. A key mechanism to optimise simulation-based education is learner preparation. While diverse pre-simulation preparation approaches are described in the literature, these are predominantly focused on activities that are undertaken in either university and/or skills centre contexts. In contrast, the learner preparation practices for simulation-based education that is delivered insitu in healthcare facilities by clinical nurse and midwifery educators are underexplored. DESIGN: This study used an exploratory qualitative design. METHODS: Participants were recruited using purposive sampling from a potential study group of thirty. Twelve individuals from the nursing and midwifery education group met selection criteria and agreed to participate in the study. Each individual participated in a semi-structured interview. Interview data were then transcribed and analysed using qualitative descriptive methods. RESULTS: Data analysis resulted in the development of four themes related to the preparation of participants for insitu simulation-based education sessions. Each theme informs the choices of clinical nurse/midwifery educators' preparation practices: 1) responsivity to workplace and clinical priorities; 2) clinical educator objectives; 3) preparedness for learning and clinical practice; and 4) evolving educational expertise. CONCLUSION: This study explored the preparation practices of nurse and midwifery clinical educators engaged in the delivery of insitu simulation-based education. Findings indicate a depth of experiences and a willingness to share practice insights, suggesting that insitu simulation-based education is an integral part of the in service repertoire and a key component of departmental education strategies, designed to support practice and hone skills required to deliver quality patient care.

Emergency reflex action drill for traumatic cardiac arrest in a simulated pre-hospital setting; a one-group pre-post intervention study.

BACKGROUND: Emergency Reflex Action Drills (ERADs) are meant to decrease stress-associated cognitive demand in high urgency situations. The aim of this study was to develop and test an ERAD for witnessed traumatic cardiac arrest (TCA), an event in which potentially reversible causes need to be systematically addressed and treated in a short period of time. We hypothesize that this ERAD (the TCA-Drill) helps ground Emergency Medical Services (EMS) nurses in overcoming performance decline during this specific high-pressure situation. METHODS: This was a prospective, experimental one-group pre-post intervention study. Ground EMS nurses participated in a session of four simulated scenarios, with an in-between educational session to teach the TCA-Drill. Scenarios were video recorded, after which adherence and time differences were analyzed. Self-confidence on clinical practice was measured before and after the scenarios. RESULTS: Twelve ground EMS nurses participated in this study. Overall median time to address reversible causes of TCA decreased significantly using the TCA-Drill (132 vs. 110 s; p = 0.030) compared with the conventional ALS strategy. More specifically, participants adhering to the TCA-Drill showed a significantly lower time needed for hemorrhage control (58 vs. 37 s; p = 0.012). Eight of 12 (67 %) ground EMS nurses performed the ERAD without protocol deviations. Reported self-confidence significantly increased on 11 of the 13 surveyed items. CONCLUSIONS: The use of an ERAD for TCA (the TCA-Drill) significantly reduces the time to address reversible causes for TCA without delaying chest compressions in a simulated environment and can be easily taught to ground EMS nurses and increases self-confidence. IMPLICATIONS FOR CLINICAL PRACTICE: The use of an ERAD for TCA (the TCA-Drill can significantly reduce the time to address reversible causes for TCA without delaying chest compression. This drill can be easily taught to ground EMS nurses and increases their self-confidence in addressing TCA-patients.

Exploring the Distribution of 3D-Printed Simulator Designs Using Open-Source Databases to Facilitate Simulation-Based Learning Through a University and Nonprofit Collaboration: Protocol for a Scoping Review.

BACKGROUND: Advancements in technology have enhanced education, training, and application in health care. However, limitations are present surrounding the accessibility and use of simulation technology (eg, simulators) for health profession education. Improving the accessibility of technology developed in university-based research centers by nonprofit organizations (NPOs; eg, hospitals) has the potential to benefit the health of populations worldwide. One example of such technology is 3D-printed simulators. OBJECTIVE: This scoping review aims to identify how the use of open-source databases for the distribution of simulator designs used for 3D printing can promote credible solutions for health care training while minimizing the risks of commercialization of designs for profit. METHODS: This scoping review will follow the Arksey and O'Malley methodological framework and the Joanna Briggs Institute guidance for scoping reviews. Ovid MEDLINE, CINAHL, Web of Science, and PsycINFO will be searched with an applied time frame of 2012 to 2022. Additionally, gray literature will be searched along with reference list searching. Papers that explore the use of open-source databases in academic settings and the health care sector for the distribution of simulator designs will be included. A 2-step screening process will be administered to titles and abstracts, then full texts, to establish paper eligibility. Screening and data extraction of the papers will be completed by 2 reviewers (MS and SS) for quality assurance. The scoping review will report information on the facilitation of distributing 3D-printed simulator designs through open-source databases. RESULTS: The results of this review will identify gaps in forming partnerships with NPOs and university-based research centers to share simulator designs. The scoping review will be initiated in December 2024. CONCLUSIONS: The information collected will be relevant and useful for stakeholders such as health care providers, researchers, and NPOs for the purpose of overcoming the gaps in research regarding the use and distribution of simulation technology. The scoping review has not been conducted yet. Therefore, there are currently no findings to report on. INTERNATIONAL REGISTERED REPORT IDENTIFIER (IRRID): PRR1-10.2196/53167.

Equity, diversity and inclusion in simulation-based education: constructing a developmental framework for medical educators.

BACKGROUND: Themes of equity, diversity and inclusion (EDI) arise commonly within healthcare simulation. Though faculty development guidance and standards include increasing reference to EDI, information on how faculty might develop in this area is lacking. With increasingly formal expectations being placed on simulation educators to adhere to EDI principles, we require a better understanding of the developmental needs of educators and clear guidance so that teams can work towards these expectations. Our study had two aims: Firstly, to explore the extent to which an existing competency framework for medical teachers to teach ethnic and cultural diversity is relevant for simulation educator competency in EDI, and secondly, informed by the data gathered, to construct a modified competency framework in EDI for simulation educators. METHODS: We engaged our participants (10 simulation faculty) in a 5-month period of enhanced consideration of EDI, using the SIM-EDI tool to support faculty debriefing conversations focussed on EDI within a pre-existing programme of simulation. We interviewed participants individually at two timepoints and analysed transcript data using template analysis. We employed an existing competency framework for medical teachers as the initial coding framework. Competencies were amended for the simulation context, modified based on the data, and new themes were added inductively, to develop a new developmental framework for simulation educators. RESULTS: Interview data supported the relevance of the existing competency framework to simulation. Modifications made to the framework included the incorporation of two inductively coded themes ('team reflection on EDI' and 'collaboration'), as well as more minor amendments to better suit the healthcare simulation context. The resultant Developmental Framework for Simulation Educators in EDI outlines 10 developmental areas we feel are required to incorporate consideration of EDI into simulation programmes during the design, delivery and debriefing phases. We propose that the framework acts as a basis for simulation faculty development in EDI. CONCLUSIONS: Simulation faculty development in EDI is important and increasingly called for by advisory bodies. We present a Developmental Framework for Simulation Educators in EDI informed by qualitative data. We encourage simulation teams to incorporate this framework into faculty development programmes and report on their experiences.

Leaders' experiences of embedding a simulation-based education programme in a teaching hospital: an interview study informed by normalisation process theory.

There is limited research on the experiences of people in working to embed, integrate and sustain simulation programmes. This interview-based study explored leaders' experiences of normalising a simulation-based education programme in a teaching hospital. Fourteen known simulation leaders across Australia and North America were interviewed. Semi-structured interviews were analysed using reflexive thematic analysis sensitised by normalisation process theory, an implementation science theory which defines 'normal' as something being embedded, integrated and sustained. We used a combined social and experiential constructivist approach. Four themes were generated from the data: (1) Leadership, (2) business startup mindset, (3) poor understanding of simulation undermines normalisation and (4) tension of competing objectives. These themes were interlinked and represented how leaders experienced the process of normalising simulation. There was a focus on the relationships that influence decision-making of simulation leaders and organisational buy-in, such that what started as a discrete programme becomes part of normal hospital operations. The discourse of 'survival' was strong, and this indicated that simulation being normal or embedded and sustained was still more a goal than a reality. The concept of being like a 'business startup' was regarded as significant as was the feature of leadership and how simulation leaders influenced organisational change. Participants spoke of trying to normalise simulation for patient safety, but there was also a strong sense that they needed to be agile and innovative and that this status is implied when simulation is not yet 'normal'. Leadership, change management and entrepreneurship in addition to implementation science may all contribute towards understanding how to embed, integrate and sustain simulation in teaching hospitals without losing responsiveness. Further research on how all stakeholders view simulation as a normal part of a teaching hospital is warranted, including simulation participants, quality and safety teams and hospital executives. This study has highlighted that a shared understanding of the purpose and breadth of simulation is a prerequisite for embedding and sustaining simulation. An approach of marketing simulation beyond simulation-based education as a patient safety and systems improvement mindset, not just a technique nor technology, may assist towards simulation being sustainably embedded within teaching hospitals.

Dyadic practice for the acquisition of laparoscopic skills (DALS)-A randomized controlled trial.

BACKGROUND: Laparoscopic simulation is integral to surgical education but requires significant resources. We aimed to compare the effectiveness of dyadic practice (DP), involving two individuals working together, to individual practice (IP) for novices acquiring laparoscopic skills and assess their learning experience. METHODS: We conducted a Randomized Controlled Trial comparing DP and IP for novice medical students who completed a laparoscopic simulation workshop. Participants were assessed individually pre-course (test 1), post-course (test 2), and 8-week retention (test 3) using a validated quantitative method. A post-course questionnaire and interview, analyzed with thematic analysis, assessed the learning experience. RESULTS: In total, 31 DP and 35 IP participants completed the study. There was no difference in mean scores between DP and IP groups in all three tests: test 1 (p = 0.55), test 2 (p = 0.26), test 3 (p = 0.35). In trend analysis, the DP group improved post-course (test 1 vs. 2: p = 0.02) and maintained this level at the retention test (2 vs. 3: p = 0.80, 1 vs. 3: p = 0.02). Whilst the IP group also improved post-course (test 1 vs. 2: p < 0.001), this improvement was not retained (2 vs. 3: p = 0.003, 1 vs. 3: p = 0.32). Thematic analysis revealed that DP participants valued peer support, peer feedback and observation time, but also acknowledged the limitations of reduced practical time and issues with teamwork. CONCLUSION: DP is non-inferior to IP for novices learning laparoscopic skills, is well received and may lead to superior long-term skill retention.

A Train-the-Trainer Simulation Program Implemented Between Two International Partners.

With the expansion of global health initiatives focused on healthcare professional training, it is important to ensure that such training is scalable and sustainable. Simulation-based education (SBE) is a highly effective means to achieve these goals. Although SBE is widely used in the United States, its integration globally is limited, which can impact the potential of SBE in many countries. The purpose of this perspective piece is to demonstrate how a train-the-trainer program can help in the development of an international SBE program and specifically what unique issues must be considered in operationalizing this strategy.

Adapting the Gamified Educational Networking Online Learning Management System to Test a Decentralized Simulation-Based Education Model to Instruct Paramedics-in-Training on the Emergency Intraosseous Access and Infusion Skill.

Intraosseous (IO) access and infusion is a safe and rapid alternative to intravenous access in obtaining vascular access for administering fluids and drugs. Healthcare professionals, such as primary and advanced care paramedics, use IO access and infusion in emergency circumstances where peripheral intravenous routes are inaccessible. IO access skills require hands-on training, which can be done remotely if the participants have access to simulation, instructions, guidance, and feedback. For the purpose of moving the training outside of the simulation laboratories, we have developed (1) an inexpensive and scalable three-dimensional (3D) printed and silicone-based advanced adult proximal tibial IO access and infusion simulator and (2) a unique learning management system (LMS) for remote simulation-based training. The LMS was built using the Django platform and supports experiential learning by providing access to educational and instructional content (including virtual simulation and serious games), allowing peers to communicate among themselves and with subject-matter experts, provide and receive feedback asynchronously, and engage in learning using gamification elements. The aim of this technical report is to describe the process of development and the final product of the LMS as a research and educational tool to scaffold remote learning of emergency IO skills by paramedics-in-training.

Mapping the Landscape: Simulation Centers in Portugal.

INTRODUCTION: Simulation-based training has emerged as a vital component of healthcare education. This study aims to characterize Portuguese simulation centers concerning their geographic distribution and key features, providing stakeholders with valuable insights to inform strategic decisions. METHODS: A cross-sectional survey-based study was conducted over two years (2021-2023) to investigate the geographical dispersion and characteristics of simulation centers in Portugal. Descriptive statistics and thematic analysis were used to analyze data. RESULTS: Twenty-three Portuguese simulation centers were included. Major urban areas and coastal regions bring together 20 simulation centers (86.96%). A large percentage (71.93%) of centers were affiliated with academic institutions, while five centers (21.74%) were clinically affiliated. Emergency care, Anesthesiology and Intensive Medicine, Pediatrics, and Gynecology and Obstetrics were identified as the national key areas of intervention. DISCUSSION: Significant geographical disparity raises concerns about unequal access to professional training opportunities using simulation. Centers should be encouraged to incorporate developing technologies and innovative pedagogical methodologies and to expand their training repertoire into relatively uncharted territories. CONCLUSION: Several issues have been identified within the national simulation network. Stakeholders and policymakers should prioritize equitable access, bolster the prevalence of clinical affiliated centers, foster innovation, and facilitate strategic coordination.

Perception of faculty in the community health sciences colleges towards simulation-based education in clinical nutrition undergraduate practical courses.

BACKGROUND: Simulation now is widely used for training and education in different fields including healthcare education. Medicine and healthcare students can be trained in a secure, efficient, and engaging setting by Simulation-based Education (SBE). Therefore, this study aimed to assess the perception of faculty members in the community health departments towards SBE to be used in practical subjects for clinical nutrition undergraduate courses. METHOD: This cross-sectional survey was conducted among community health sciences faculty members. The perception was assessed using a self-administered questionnaire that included three sections. RESULTS: This questionnaire was completed by 125 faculty members, of whom 36 (28.8%) were male and 89 (71.2%) were female. Overall, faculty members had positive perceptions, with a mean score of 3.86 ± 0.74, but a high level of anxiety toward SBE, with a mean score of 3.42 ± 0.75. There was a statistically significant difference between the responses of the faculty members based on the training they received in simulation (P = 0.001). CONCLUSION: The study results indicate that community health sciences faculty members' perception of SBE in Saudi Arabia is generally positive. However, the results show high levels of anxiety among faculty members toward SBE.

The impact of incorporating a simulation program into the undergraduate nursing curricula: A cross-sectional descriptive study.

AIM: To determine the degree of satisfaction for each academic year and according to the type of simulation performed (simulated patient actor/advanced simulator) among nursing students after the use of clinical simulation. INTRODUCTION: Clinical simulation is currently being incorporated in a cross-cutting manner throughout undergraduate nursing education. Its implementation requires a novel curricular design and educational changes throughout the academic subjects. DESIGN: A cross-sectional descriptive study was performed. METHODS: During the academic years 2018-2019 and 2019-2020, 425 students completed the High-Fidelity Simulation Satisfaction Reduced Scale for Students based on 25 questions and six factors, with a total score between 0 and 125. In total, 91 simulation sessions were performed among students who had different degrees of clinical and previous experience with simulation as well as standardized patient versus advanced simulator. A bivariate analysis was performed, comparing the total scores and the different subscales by sex, previous experience, academic year, and simulation methodology. Linear regression was used for both bivariate and multivariate analysis. RESULTS: The mean scale score was 116.8 (SD=7.44). The factor with the highest score was "F2: feedback or subsequent reflection", with a mean score of 14.71 (SD=0.73) out of 15. Fourth year students scored the highest (mean=119.17; SD=5.28). Students who underwent simulation training with a simulated patient actor presented a higher level of overall satisfaction (p<0.05) (Mean=120.31; SD=4.91), compared to students who used an advanced simulator (Mean=118.11; SD=5.75). CONCLUSIONS: Satisfaction with the simulation program was higher in fourth-year students compared to first-year students and was also higher when a simulated patient actor was used compared to an advanced simulator. The most highly valued aspect was the subsequent debriefing or reflective process.

Manejo de la vía aérea ante un caso de paro respiratorio en un escenario clínico simulado. Experiencia en una residencia de pediatría / Airway management during a respiratory arrest in a clinical simulation scenario. Experience at a pediatric residency program

Introducción. La insuficiencia respiratoria es la causa más común de paro cardíaco en pediatría; su reconocimiento y el manejo adecuado son cruciales. La simulación se utiliza para mejorar las habilidades médicas. El objetivo del trabajo fue determinar la proporción de residentes de pediatría que reconocieron un paro respiratorio (PR) pediátrico en un centro de simulación. Métodos. Se realizó un estudio observacional con 77 médicos residentes. Se utilizó un caso simulado de un paciente con dificultad respiratoria que progresa a PR. Resultados. De los 77 participantes, 48 reconocieron el paro respiratorio (62,3 %). El tiempo medio para reconocer el PR fue de 34,43 segundos. Conclusión. El 62,3 % de los participantes logró reconocer el paro respiratorio. Entre aquellos que lo identificaron, el tiempo promedio fue de 34,43 segundos. Se observaron graves deficiencias en algunas de las intervenciones esperadas.

Introduction. Respiratory failure is the most common cause of cardiac arrest in pediatrics. Recognizing and managing it adequately is critical. Simulation is used to improve medical skills. The objective of this study was to establish the proportion of pediatric residents who recognized a respiratory arrest in a child at a simulation center. Methods. This was an observational study in 77 residents. A simulation of a patient with respiratory distress that progressed to respiratory arrest was used. Results. Among the 77 participants, 48 recognized respiratory arrest (62.3%). The mean time to recognize respiratory arrest was 34.43 seconds. Conclusion. Respiratory arrest was recognized by 62.3% of participants. Among those who did so, the average time was 34.43 seconds. Severe failures were noted in some of the expected interventions.

A guide to outcome evaluation of simulation-based education programmes in low and middle-income countries.

Evaluation is a vital part of any learning activity and is essential to optimize and improve educational programmes. It should be considered and prioritized prior to the implementation of any learning activity. However, comprehensive programme evaluation is rarely conducted, and there are numerous barriers to high-quality evaluation. This review provides a framework for conducting outcome evaluation of simulation-based education programmes in low and middle-income countries (LMICs). The basis of evaluation, including core ideas of theory, purpose and structure are outlined, followed by an examination of the levels and healthcare applications of the Kirkpatrick model of evaluation. Then, methods of conducting evaluation of simulation-based education in LMICs are discussed through the lens of a successful surgical simulation programme in Myanmar, a lower-middle-income country. The programme involved the evaluation of 11 courses over 4 years in Myanmar and demonstrated evaluation at the highest level of the Kirkpatrick model. Reviewing this programme provides a bridge between evaluation theory and practical implementation. A range of evaluation methods are outlined, including surveys, interviews, and clinical outcome measurement. The importance of a mixed-methods approach, enabling triangulation of quantitative and qualitative analysis, is highlighted, as are methods of analysing data, including statistical and thematic analysis. Finally, issues and challenges of conducting evaluation are considered, as well as strategies to overcome these barriers. Ultimately, this review informs readers about evaluation theory and methods, grounded in a practical application, to enable other educators in low-resource settings to evaluate their own activities.

Development and Evaluation of An In-House Lumbar Puncture Simulator for First-Year Resident Lumbar Puncture Procedure Learning.

INTRODUCTION: Lumbar puncture (LP) is a common invasive technique considered an essential learning milestone for anesthesiologists due to its application in spinal anesthesia. We aimed to develop an in-house LP simulator, test its effectiveness in learning the steps to perform an LP and analyze its impact on the first-year residents' self-confidence at our hospital. METHODS:  We used 3D printing and silicone casting to create an LP simulator based on a lumbar spine computed tomography (CT). We divided 12 first-year anesthesiology residents into control and experimental groups. The control group received traditional training, while the experimental group practiced with the simulator for three months. We used a procedure checklist and a Likert scale survey to evaluate their procedural knowledge and self-confidence at baseline, three, and six months. Eighteen months later, we evaluated their LP performance skills. RESULTS: Both groups showed a significant improvement in their knowledge scores over time. After three months, the experimental group had a higher median knowledge score (10 (10 - 10) median (min-max)) than the control group (9 (8 - 9.5) median (min-max)) (p = 0.03). While there were no apparent differences in median self-confidence scores between the groups at any time point, the experimental group had a significant increase in their self-confidence for performing an unassisted LP, with a median score of 1/5 (1 - 2.3) at baseline and 5/5 (4.8 - 5) after six months (p = 0.006). In contrast, the control group's self-confidence scores decreased from 4/5 (3 - 4) after three months to 3/5 (2 - 5) after six months. The evaluation of performance skills did not yield statistically significant results. CONCLUSION: Our study demonstrates that an in-house LP simulator is an effective and practical approach for first-year anesthesiology residents to learn the LP procedure. This approach could be particularly useful in settings with limited resources and a lack of sufficient patients to practice on, as it provides an opportunity for faster learning and increased self-confidence.

Results of a Novel Long-Term Method for Laparoscopic Skills Online Training.

Introduction: Ensuring patient safety in minimally invasive surgery (MIS) within the field of pediatric surgery requires systematic and extensive practice. Many groups have proposed mastery learning programs encompassing a range of training methods. However, short courses often have a narrow focus on specific objectives, limiting opportunities for sustained training. Our aim was to analyze our results with an online long-term competency-based and supervised training. Methods: This is a retrospective cohort study with prospective data collection of scores and performance of trainees during online courses from October 2020 to April 2023. Results: All participants (n = 76) were able to set up their personal training gym and complete the intensive stage of the course. The total score evolved from 2.60 ± 0.56 at the first meeting to 3.67 ± 0.61 at the fourth meeting, exhibiting a significant difference (P < .013). A considerable drop out was observed in the follow-up stage, with only 53.8% of the participants completing the course. When compared with the first meeting, they also showed a significant improvement with a mean general score of 3.85 ± 0.25 (P < .013) Conclusion: We have presented a novel online training program, based on continuous training that demonstrated that the unlimited access to a personal training gym allows surgeons to improve and maintain MIS skills.

Artificial intelligence, applications and challenges in simulation-based education

The rapid advancement of Artificial Intelligence (AI) has taken the world by "surprise" due to the lack of regulation over this technological innovation which, while promising application opportunities in different fields of knowledge, including education, simultaneously generates concern, rejection and even fear. In the field of Health Sciences Education, clinical simulation has transformed educational practice; however, its formal insertion is still heterogeneous, and we are now facing a new technological revolution where AI has the potential to transform the way we conceive its application.

El rápido avance de la inteligencia artificial (IA) ha tomado al mundo por "sorpresa" debido a la falta de regulación sobre esta innovación tecnológica, que si bien promete oportunidades de aplicación en diferentes campos del conocimiento, incluido el educativo, también genera preocupación e incluso miedo y rechazo. En el campo de la Educación en Ciencias de la Salud la Simulación Clínica ha transformado la práctica educativa; sin embargo, aún es heterogénea su inserción formal, y ahora nos enfrentamos a una nueva revolución tecnológica, en la que las IA tienen el potencial de transformar la manera en que concebimos su aplicación.

Evaluation of a novel home-based laparoscopic and core surgical skills programme (Monash Online Surgical Training).

INTRODUCTION: Limitations to surgical education access were exacerbated during the COVID-19 Pandemic. In response, we created a national home-based comprehensive surgical skills course: Monash Online Surgical Training (MOST). Our aim was to evaluate the educational impact of this approach. METHODS: A remote, 6-week course was designed with learning objectives aligned to the national surgical training. Participants received a personal laparoscopic bench trainer, instrument tracking software, live webinars, access to an online theoretical learning platform, and individualised feedback by system-generated or expert surgeons' assessments. Mixed method analysis of instrument tracking metrics, pre- and post-course questionnaires (11 core surgical domains) and participant comments was utilised. Data were analysed using the Mann-Whitney U test, and a p-value of < 0.05 was considered statistically significant. RESULTS: A total of 54 participants with varied levels of experience (1 to > 6 years post-graduate level) completed MOST. All 11 learning-outcome domains demonstrated statistically significant improvement including core laparoscopic skills (1.4/5 vs 2.8/5, p < 0.0001) and handling laparoscopic instruments (1.5/5 vs 2.8/5, p < 0.0001). A total of 3460 tasks were completed reflecting 158.2 h (9492 min) of practice, 394 were submitted for formal feedback. Participants rated the course (mean 8.5/10, SD 1.6), live webinars (mean 8.9/10, SD 1.6) and instrument tracking software (mean 8.6, SD 1.7) highly. Qualitative analysis revealed a paradigm shift including the benefits of a safe learning environment and self-paced, self-directed learning. CONCLUSION: The MOST course demonstrates the successful implementation of a fully remote laparoscopic simulation course which participants found to be an effective tool to acquire core surgical skills.

Current use of simulation for EPA assessment in emergency medicine.

OBJECTIVE: Approximately five years ago, the Royal College emergency medicine programs in Canada implemented a competency-based paradigm and introduced the use of Entrustable Professional Activities (EPAs) for assessment of units of professional activity to assess trainees. Many competency-based medical education (CBME) based curricula, involve assessing for entrustment through observations of EPAs. While EPAs are frequently assessed in clinical settings, simulation is also used. This study aimed to characterize the use of simulation for EPA assessment. METHODS: A study interview guide was jointly developed by all study authors and followed best practices for survey development. A national interview was conducted with program directors or assistant program directors across all the Royal College emergency medicine programs across Canada. Interviews were conducted over Microsoft Teams, interviews were recorded and transcribed, using Microsoft Teams transcribing service. Sample transcripts were analyzed for theme development. Themes were then reviewed by co-authors to ensure they were representative of the participants' views. RESULTS: A 64.7% response rate was achieved. Simulation has been widely adopted by EM training programs. All interviewees demonstrated support for the use of simulation for EPA assessment for many reasons, however, PDs acknowledged limitations and thematic analysis revealed certain themes and tensions for using simulation for EPA assessment. Thematic analysis revealed six major themes: widespread support for the use of simulation for EPA assessment, concerns regarding the potential for EPA assessment to become a "tick- box" exercise, logistical barriers limiting the use of simulation for EPA assessment, varied perceptions about the authenticity of using simulation for EPA assessment, the potential for simulation for EPA assessment to compromise learner psychological safety, and suggestions for the optimization of use of simulation for EPA assessment. CONCLUSIONS: Our findings offer insight for other programs and specialties on how simulation for EPA assessment can best be utilized. Programs should use these findings when considering using simulation for EPA assessment.

RéSUMé: OBJECTIF: Il y a environ cinq ans, les programmes de médecine d'urgence du Collège royal au Canada ont mis en place un paradigme basé sur les compétences et ont introduit l'utilisation d'activités professionnelles confiables (APC) pour l'évaluation des unités d'activité professionnelle afin d'évaluer les stagiaires. De nombreux programmes d'enseignement médical basés sur les compétences (CBME) prévoient l'évaluation des compétences par l'observation des APC. Bien que les APC soient fréquemment évaluées en milieu clinique, la simulation est également utilisée. Cette étude visait à caractériser l'utilisation de la simulation pour l'évaluation de l'APC. MéTHODES: Un guide d'entretien d'étude a été élaboré conjointement par tous les auteurs de l'étude et a suivi les meilleures pratiques en matière d'élaboration d'enquêtes. Un entretien national a été réalisé avec les directeurs de programmes ou les directeurs adjoints de tous les programmes de médecine d'urgence du Collège royal au Canada. Les entretiens ont été menés sur Microsoft Teams, enregistrés et transcrits à l'aide du service de transcription de Microsoft Teams. Les transcriptions des échantillons ont été analysées pour développer des thèmes. Les thèmes ont ensuite été revus par les co-auteurs pour s'assurer qu'ils étaient représentatifs des points de vue des participants. RéSULTATS: Un taux de réponse de 64,7 % a été obtenu. La simulation a été largement adoptée par les programmes de formation en médecine d'urgence. Toutes les personnes interrogées se sont montrées favorables à l'utilisation de la simulation pour l'évaluation de l'APE pour de nombreuses raisons. Cependant, les DP ont reconnu des limites et l'analyse thématique a révélé certains thèmes et tensions liés à l'utilisation de la simulation pour l'évaluation de l'APC. L'analyse thématique a révélé six thèmes majeurs : un appui généralisé à l'utilisation de la simulation pour l'évaluation de l'APC, inquiétudes concernant la possibilité que l'évaluation de l'APC devienne un exercice de type « case à cocher ¼, des obstacles logistiques limitant l'utilisation de la simulation pour l'évaluation de l'APC, les perceptions variées quant à l'authenticité de l'utilisation de la simulation pour l'évaluation de l'APC, le potentiel de la simulation pour l'évaluation de l'APC de compromettre la sécurité psychologique des apprenants, et des suggestions pour l'optimisation de l'utilisation de la simulation pour l'évaluation de l'APC. CONCLUSIONS: Nos résultats offrent un aperçu à d'autres programmes et spécialités sur la meilleure façon d'utiliser la simulation pour l'évaluation de l'APC. Les programmes devraient utiliser ces résultats lorsqu'ils envisagent d'utiliser la simulation pour l'évaluation de l'APC.