A major trauma course based on posters, audio-guides and simulation improves the management skills of medical students: Evaluation via medical simulator

Technology-enhanced trauma training in low-resource settings: A scoping review and feasibility analysis of educational technologies

BACKGROUND

Lack of training contributes to the burden of trauma-related mortality and morbidity in low- and lower-middle-income countries (LMICs). Educational technologies present a unique opportunity to enhance the quality of trauma training. Therefore, this study reviews current technologies used in trauma courses and evaluates their feasibility for LMICs.

METHODS

We conducted a scoping review evaluating the learning outcomes of technology-enhanced training in general trauma assessment, team skills or any procedures covered in the 2020 Advanced Trauma Life Support® program. Based on the Technology-Enhanced Learning criteria, we created and applied a feasibility analysis tool to evaluate the technologies for use in LMICs.

RESULTS

We screened 6471 articles and included 64. Thirty-four (45%) articles explored training in general trauma assessment, 28 (37%) in team skills, and 24 (32%) in procedures. The most common technologies were high-fidelity mannequins (60%), video-assisted debriefing (19%), and low-fidelity mannequins (13%). Despite their effectiveness, high-fidelity mannequins ranked poorly in production, maintenance, cost, and reusability categories, therefore being poorly suited for LMICs. Virtual simulation and digital courses had the best feasibility scores, but still represented a minority of articles in our review.

CONCLUSION

To our knowledge, this is the first study to perform a feasibility analysis of trauma training technologies in the LMIC context. We identified that the majority of trauma courses in the literature use technologies which are less suitable for LMICs. Given the urgent need for pediatric trauma training, educators must use technologies that optimize learning outcomes and remain feasible for low-resource settings.

LEVEL OF EVIDENCE

IV.

Simulation-Based Education in Trauma Management: A Scoping Review

Trauma injuries are an important healthcare problem and one of the main leading causes of death worldwide. The purpose of this review was to analyze current practices in teaching trauma management using simulations, with the aim of summarizing them, identifying gaps and providing a critical overview on what has already been achieved. A search on the Web of Science website for simulation-based trauma training articles published from 2010 onwards was performed, obtaining 1617 publications. These publications were screened to 35 articles, which were deeply analyzed, gathering the following information: the authors, the publication type, the year of the publication, the total number of citations, the population of the training, the simulation method used, the skills trained, the evaluation type used for the simulation method presented in the paper, if skills improved after the training and the context in which the simulation took place. Of the 35 articles included in this review, only a few of them had students as the target audience. The more used simulation method was a high-fidelity mannequin, in which the participants trained in more technical than non-technical skills. Almost none of the studies introduced an automated evaluation process and most of the evaluation methods consisted of checklists or questionnaires. Finally, trauma training focused more on treating trauma patients in a hospital environment than in a pre-hospital one. Overall, improvements in the evaluation method, as well as in the development of trauma training on undergraduate education, are important areas for further development.

The Need for Trauma Management Training and Evaluation on a Prehospital Setting

Trauma is one of the leading causes of death in the world, being the main cause of death in people under 45 years old. The epidemiology of these deaths shows an important peak during the first hour after a traumatic event. Therefore, learning how to manage traumatic injuries in a prehospital setting is of great importance. Medical students from Universidad Autónoma performed 66 different simulations to stabilize a trauma patient on a prehospital scene by using a web-based trauma simulator. Then, a panel of trauma experts evaluated the simulations performed, observing that, on average, an important number of simulations were scored below 5, being the score values provided from 0, minimum, to 10, maximum. Therefore, the first need detected is the need to further train prehospital trauma management in undergraduate education. Additionally, a deeper analysis of the scores provided by the experts was performed. It showed a great dispersion in the scores provided by the different trauma experts per simulation. Therefore, a second need is identified, the need to develop a system to objectively evaluate trauma management.

Impact of a large interprofessional simulation-based training course on communication, teamwork, and safety culture in the operating theatre: a mixed-methods interventional study

BACKGROUND

Communication and teamwork are critical non-technical skills in the operating theatre. However, prevention of events associated with communication failures by large simulation-based programs remains to be evaluated. The objective was to assess the impact of an interprofessional simulation-based training course on communication, teamwork, checklist adherence, and safety culture.

METHODS

We aimed to assess the impact of an interprofessional simulation-based training course on communication, teamwork, checklist adherence, and safety culture. We conducted a before-and-after interventional study based on a mixed-methods approach combining qualitative and quantitative evaluation criteria. The study was performed in a University Hospital with 39 operating theatres operated by 300 providers before (period 1) and after (period 2) an interprofessional simulation-based training course. Surgical procedures were observed, and the primary outcome measure was the rate of procedures with at least one communication failure associated with adverse event. Additional outcomes measured included the rate of or other communication failures, checklist adherence, while teamwork and safety culture as assessed by questionnaires.

RESULTS

In total, 46 970 communication episodes were analysed during 131 (period 1) and 122 (period 2) surgical procedures. One hundred sixty-four professionals attended 40 simulation-based sessions. The rate of procedures with at least one communication failure associated with adverse events was not significantly different between the 2 periods (38% in period 1 and 43% in period 2; P = 0.47). Nevertheless, the rate of communication failures reduced between period 1 and 2 (8117/28 303 (29%) vs. 3868/18 667 (21%), respectively; P < 0.01). Teamwork scores and checklist adherence increased significantly after the intervention (8.1 (7.2 to 8.7) in period 1 vs. 8.6 (8.0 to 9.2) in period 2; P < 0.01 and 17% (0-35%) in period 1 vs. 44% (26-57%) in period 2; P < 0.01). Safety culture ratings did not change significantly.

CONCLUSION

This study shows that although the rate of procedures with at least one communication failure associated with adverse event (primary endpoint) was not significantly different, a large interprofessional simulation-based training course has a positive effect on communication failures, teamwork, and checklist adherence.

Design and Development of an Interactive Web-Based Simulator for Trauma Training: A Pilot Study

Trauma is the leading cause of death in people under 45 years old and one of the leading causes of death in the world. Therefore, specific trauma training during medical school as well as after it is crucial. Web-based learning is an important tool in education, offering the possibility to create realistic trauma scenarios. A web-based simulator has been developed and a pilot study has been accomplished to trial the simulator. A pelvic trauma scenario was created and 41 simulations were performed, 28 by medical students and 13 by doctors. The data analyzed are the actions taken to treat the trauma patient, the evolution of the vital signs of the patient, the timing spent on deciding which action to take, when each action was performed and the consequence that it had on the patient. Moreover, a post-simulation questionnaire was completed related to the usability of the simulator. The clinical treatment performance of doctors is better than the performance of medical students performing more actions correctly and in the right sequence as per ATLS recommendations. Moreover, significant differences are obtained in the time response provided to the patients which is key in trauma. With respect to the usability of the tool, responses provide a positive usability rating. In conclusion, this pilot study has demonstrated that the web-based training developed can be used to train and evaluate trauma management. Moreover, this research has highlighted a different approach to trauma treatment between medical students and doctors.

Training in polytrauma management in medical curricula: A scoping review

INTRODUCTION

Polytrauma (PT) is a leading cause of morbidity and mortality worldwide. However, it is unknown if PT teaching is taught or adequately included in undergraduate medical curricula. We conducted this scoping review to explore the literature on undergraduate PT training.

METHODS

Using Arksey and O'Malley's five stage framework, a scoping review was conducted. Nine medical and educational databases, including PubMed, MEDLINE, Scopus, CINAHL, PsycINFO, and EMBASE were searched using keywords identified by the authors. Eligible studies were limited to the English language, with no set limitations on the year of publication. Studies reporting on PT teaching in undergraduate medical curricula were included.

RESULTS

Nine studies were included. The articles were sub-categorised into three themes: current teaching of PT in medical curricula, trauma management courses and simulation-based trauma education. Four out of five studies on PT teaching in the curriculum were rated as inadequate by current or past students; on the other hand, three out of four trauma management/simulation courses were evaluated and all three were rated positively by students. Three trauma management courses compared students pre- and post-course scores on a written or practical test and reported significant improvement in post-course scores.

CONCLUSIONS

There is a relative paucity of literature on undergraduate PT training. There is a need for more research to explore how to deliver effective PT teaching to medical students.

Peripheral venous catheter insertion simulation training: A randomized controlled trial comparing performance after instructor-led teaching versus peer-assisted learning

INTRODUCTION

Peripheral venous catheter insertion is a procedural skill that every medical student should master. Training is often limited to a small number of students and is poorly evaluated. The objective of this study was to evaluate the performance of peer-assisted learning in comparison to instructor-led teaching for peripheral venous catheter insertion training.

METHODS

Students were randomized to the control group attending a traditional instructor-led training session (slideshow and demonstration by an anesthetist instructor, followed by training on a procedural simulator) or to the test group attending a peer-assisted training session (slideshow and demonstration video-recorded by the same instructor, followed by training on a procedural simulator). The primary endpoint was the performance of peripheral venous catheter insertion, assessed on procedural simulator one week later by blinded experts using a standardized 20-item grid. Students self-evaluated their confidence levels using a numeric 10-point scale.

RESULTS

Eighty-six students were included, 73 of whom attended the assessment session. The median performance score was 12/20 [8-15] in the instructor-led teaching group versus 13/20 [11-15] in the peer-assisted learning group (P=0.430). Confidence levels improved significantly after the assessment session and were significantly higher in the peer-assisted learning group (7.6/10 [7.0-8.0] versus 7.0/10 [5.0-8.0], P=0.026).

CONCLUSION

Peer-assisted learning is effective for peripheral venous catheter insertion training and can be as effective as instructor-led teaching. Given the large number of students to train, this finding is important for optimizing the cost-effectiveness of peripheral venous catheter insertion training.