Telesimulation: an innovative and effective tool for teaching novel intraosseous insertion techniques in developing countries

Innovative Technology to Improve Simulation Access for Rural Clinicians

Rural pediatric clinicians face barriers to accessing health care simulation, an educational standard to prepare for high-acuity, low-occurrence (HALO) events. Simulation is typically accessible in urban academic medical centers, as it is resource-intensive owing to the necessary equipment and expertise needed to implement training. Rural hospitals face geographic and financial barriers to providing simulation training. Paradoxically, rural clinicians may benefit from additional training owing to infrequent clinical HALO events in rural centers. Emerging simulation modalities, including mobile simulation, telesimulation, and extended reality, offer more accessible simulation alternatives for rural clinicians, addressing geographic and financial gaps in access.

Virtual simulation training for postpartum hemorrhage in low-to-moderate-volume hospitals in the US

Background

Maternal mortality in the United States is rising and many deaths are preventable. Emergencies, such as postpartum hemorrhage, occur less frequently in non-teaching, rural, and urban low-birth volume hospitals. There is an urgent need for accessible, evidence-based, and sustainable inter-professional education that creates the opportunity for clinical teams to practice their response to rare, but potentially devastating events.

Objective

To assess the feasibility of virtual simulation training for the management of postpartum hemorrhage in low-to-moderate-volume delivery hospitals.

Study design

The study occurred between December 2021 and March 2022 within 8 non-academic hospitals in the United States with low-to-moderate-delivery volumes, randomized to one of two models: direct simulation training and train-the-trainer. In the direct simulation training model, simulation faculty conducted a virtual simulation training program with participants. In the train-the-trainer model, simulation faculty conducted virtual lessons with new simulation instructors on how to prepare and conduct a simulation course. Following this training, the instructors led their own simulation training program at their respective hospitals. The direct simulation training participants and students trained by new instructors from the train-the-trainer program were evaluated with a multiple-choice questionnaire on postpartum hemorrhage knowledge and a confidence and attitude survey at 3 timepoints: prior to, immediately after, and at 3 months post-training. Paired t-tests were performed to assess for changes in knowledge and confidence within teaching models across time points. ANOVA was performed to test cross-sectionally for differences in knowledge and confidence between teaching models at each time point.

Results

Direct simulation training participants (n=22) and students of the train-the-trainer instructors (n=18) included nurses, certified nurse midwives and attending physicians in obstetrics, family practice or anesthesiology. Mean pre-course knowledge and confidence scores were not statistically different between direct simulation participants and the students of the instructors from the train-the-trainer course (79%+/-13 versus 75%+/-14, respectively, P-value=.45). Within the direct simulation group, knowledge and confidence scores significantly improved from pre- to immediately post-training (knowledge score mean difference 9.81 [95% CI 3.23-16.40], P-value<.01; confidence score mean difference 13.64 [95% CI 6.79-20.48], P-value<.01), which were maintained 3-months post-training. Within the train-the-trainer group, knowledge and confidence scores immediate post-intervention were not significantly different compared with pre-course or 3-month post-course scores. Mean knowledge scores were significantly greater for the direct simulation group compared to the train-the-trainer group immediately post-training (89%+/-7 versus 74%+/-8, P-value<.01) and at 3-months (88%+/-7 versus 76%+/-12, P-value<.01). Comparisons between groups showed no difference in confidence and attitude scores at these timepoints. Both direct simulation participants and train-the-trainer instructors preferred virtual education, or a hybrid structure, over in-person education.

Conclusion

Virtual education for obstetric simulation training is feasible, acceptable, and effective. Utilizing a direct simulation model for postpartum hemorrhage management resulted in enhanced knowledge acquisition and retention compared to a train-the-trainer model.

Care of Injured Children Compared to Adults at District and Regional Hospitals in Ghana and the Impact of a Trauma Intake Form: A Stepped-Wedge Cluster Randomized Trial

BACKGROUND

This study aimed to determine the effectiveness of a standardized trauma intake form (TIF) to improve achievement of key performance indicators (KPIs) of initial trauma care among injured children, compared to adults, at non-tertiary hospitals in Ghana.

METHODS

A stepped-wedge cluster randomized trial was performed with research assistants directly observing the management of injured patients before and after introducing the TIF at emergency units of 8 non-tertiary hospitals for 17.5 months. Differences in outcomes between children and adults in periods before and after TIF introduction were determined with multivariable logistic regression. Differences in outcomes among children after TIF introduction were determined using generalized linear mixed regression.

RESULTS

Management of 3889 injured patients was observed; 757 (19%) were children <18 years. Trauma care KPIs at baseline were lower for children compared to adults. Improvements in primary survey KPIs were observed among children after TIF introduction. Examples include airway assessment [279 (71%) to 359 (98%); adjusted odds ratio (AOR): 74.42, p = 0.005)] and chest examination [225 (58%) to 349 (95%); AOR 53.80, p = 0.002)]. However, despite these improvements, achievement of KPIs was still lower compared to adults. Examples are pelvic fracture evaluation [children: 295 (80%) vs adults: 1416 (88%), AOR: 0.56, p = 0.001] and respiratory rate assessment (children: 310 (84%) vs adults: 1458 (91%), AOR: 058, p = 0.030).

CONCLUSIONS

While the TIF was effective in improving most KPIs of pediatric trauma care, more targeted education is needed to bridge the gap in quality between pediatric and adult trauma care at non-tertiary hospitals in Ghana and other low- and middle-income countries.

TYPE OF STUDY

Stepped-wedged cluster randomized controlled trial.

LEVEL OF EVIDENCE

I.

Stop the Bleed in the Era of Virtual Learning: A Novel Strategy for Remote Teaching and Evaluation

INTRODUCTION

Traumatic hemorrhage is a leading cause of preventable mortality worldwide. The Stop the Bleed (STB) course was developed to equip layperson bystanders with basic bleeding control knowledge and skills. However, large in-person courses have been disrupted due to COVID-19. The aim of this study was to determine the feasibility of teaching and evaluating STB skills through remote video-based instruction.

METHODS

After undergoing COVID-19 screening, groups of up to eight STB-naive adults were seated in a socially distanced manner and given individual practice kits. A remote STB-certified instructor provided the standard STB lecture and led a 10-min skills practice session via videoconferencing. Participants' skills were evaluated on a 10-point rubric by one in-person evaluator and three remote evaluators. Participants completed a postcourse survey assessing their perceptions of the course.

RESULTS

Thirty-five participants completed the course, all scoring ≥8/10 after examination by the in-person evaluator. Remote instructors' average scores (9.8 ± 0.45) did not significantly differ from scores of the in-person evaluator (9.9 ± 0.37) (P = 0.252). Thirty-three participants (94%) completed the postcourse survey. All respondents reported being willing and prepared to intervene in scenarios of life-threatening hemorrhage, and 97% reported confidence in using all STB skills.

CONCLUSIONS

STB skills can be effectively taught and evaluated through a live video-based course. All participants scored highly when evaluated both in-person and remotely, and nearly all reported confidence in skills and knowledge following the course. Remote instruction is a valuable strategy to disseminate STB training to students without access to in-person courses, especially during pandemic restrictions.

Health Care Simulation in Person and at a Distance: A Systematic Review

ABSTRACT

Distance simulation is a method of health care training in which the learners and facilitators are in different physical locations. Although methods of distance simulation have existed in health care for decades, this approach to education became much more prevalent during the COVID-19 pandemic. This systematic review studies a subset of distance simulation that includes combined in-person and distance simulation elements, identified here as "mixed- distance simulation." A review of the distance simulation literature identified 10,929 articles. Screened by inclusion and exclusion criteria, 34 articles were ultimately included in this review. The findings of this review present positive and negative aspects of mixed-distance simulation formats, a description of the most frequent configurations related to delivery, terminology challenges, as well as future directions including the need for faculty development, methodological rigor, and reporting details.

Simulation training for medical emergencies of dental patients: A review of the dental literature

In recent years, due to the aging of the population, the number of dental patients with comorbidities such as hypertension and diabetes has increased. Although it has been reported that these patients are increasingly developing medical emergencies during their dental treatments, many dental providers still do not possess the skills to manage medical emergencies appropriately. Simulation training is essential to improve this situation however, there is no report describing how to conduct an effective simulation in detail for dental office medical emergencies. The purpose of this review is to provide information on simulations that is effective and practical. The authors will highlight the key characteristics for providing effective simulation trainings, such as the selection of simulators, simulation locations, instructors, debriefings, methods for evaluating educational effectiveness, and the use of telesimulation as a method for simulation training due to the global COVID-19 pandemic. In addition, this review provides recommendations on tailoring an ideal simulation training course for those who wish to create one. The authors hope that this review will promote the spread of effective simulation training and in turn, contribute to improving the medical safety of dental patients.

Healthcare provider perspective on barriers and facilitators in the care of pediatric injury patients at a tertiary hospital in Northern Tanzania: A qualitative study

Pediatric injuries are a leading cause of morbidity and mortality in low- and middle-income countries (LMICs). The recovery of injured children in LMICs is often impeded by barriers in accessing and receiving timely and quality care at healthcare facilities. The purpose of this study was to identify the barriers and the facilitators in pediatric injury care at Kilimanjaro Christian Medical Center (KCMC), a tertiary zonal referral hospital in Northern Tanzania. In this study, focus group discussions (FGDs) were conducted by trained interviewers who were fluent in English and Swahili in order to examine the barriers and facilitators in pediatric injury care. Five FGDs were completed from February 2021 to July 2021. Participants (n = 30) were healthcare providers from the emergency department, burn ward, surgical ward, and pediatric ward. De-identified transcripts were analyzed with team-based, applied thematic analysis using qualitative memo writing and consensus discussions. Our study found barriers that impeded pediatric injury care were: lack of pediatric-specific injury training and care guidelines, lack of appropriate pediatric-specific equipment, staffing shortages, lack of specialist care, and complexity of cases due to pre-hospital delays in patients presenting for care due to cultural and financial barriers. Facilitators that improved pediatric injury care were: team cooperation and commitment, strong priority and triage processes, benefits of a tertiary care facility, and flexibility of healthcare providers to provide specialized care if needed. The data highlights barriers and facilitators that could inform interventions to improve the care of pediatric injury patients in Northern Tanzania such as: increasing specialized provider training in pediatric injury management, the development of pediatric injury care guidelines, and improving access to pediatric-specific technologies and equipment.

Telesimulation for neonatal resuscitation training

Telesimulation uses telecommunication and simulation to educate and assess remote learners, obviating the need for instructors or learners to travel off site. Telesimulation increases access to and convenience of simulation-based education for sites that do not have formal simulation centers, including rural/remote areas. Telesimulation is feasible, improves knowledge and skills, and is favorably received by learners and instructors. In general, telesimulation has been shown to be effective for neonatal resuscitation training, even in low- and middle-income countries. Post telesimulation debriefing, termed teledebriefing, requires many of the skills of in-person debriefing, and teledebriefing can optimize learning by exposing learners to content experts in geographically distant sites or from specialties not available locally. When implementing telesimulation for neonatal resuscitation training, key considerations include program design, telecommunication platform, pre-telesimulation preparation, and teledebriefing. Additional research is needed to identify whether lessons learned during telesimulation translate to clinical practice and impact patient outcomes.

Telesimulation for the Training of Medical Students in Neonatal Resuscitation

Background: Telesimulation may be an alternative to face-to-face simulation-based training. Therefore, we investigated the effect of a single telesimulation training in inexperienced providers. Methods: First-year medical students were recruited for this prospective observational study. Participants received a low-fidelity mannequin and medical equipment for training purposes. The one-hour telesimulation session was delivered by an experienced trainer and broadcast via a video conference tool, covering all elements of the neonatal resuscitation algorithm. After the telesimulation training, each student underwent a standardized simulated scenario at our Clinical Skills Center. Performance was video-recorded and evaluated by a single neonatologist, using a composite score (maximum: 10 points). Pre- and post-training knowledge was assessed using a 20-question questionnaire. Results: Seven telesimulation sessions were held, with a total of 25 students participating. The median performance score was 6 (5-8). The median time until the first effective ventilation breath was 30.0 s (24.5-41.0) and the median number of effective ventilation breaths out of the first five ventilation attempts was 5 (4-5). Neonatal resuscitation knowledge scores increased significantly. Conclusions: Following a one-hour telesimulation session, students were able to perform most of the initial steps of the neonatal resuscitation algorithm effectively while demonstrating notable mask ventilation skills.

A scoping review of remote facilitation during simulation-based healthcare education

BACKGROUND

Remote facilitation is a synchronous distance education method where instructors facilitate a lesson, in real-time, in physically separate conditions. In this scoping review, we aimed to describe types of remote facilitation used in a healthcare simulation, the influences on learner outcomes, and related factors.

METHODS

We accessed PubMed, EMBASE, CINAHL, ERIC, and Web of Science using our search strategies. Five reviewers performed the review using the Preferred Reporting Items for Systematic Reviews and Meta Analysis extension for Scoping Reviews (PRISMA-ScR) framework, and the Johanna Briggs Institute (JBI) guidelines.

RESULTS

We included a total of 29 articles presenting 28 simulation studies. The most common tool was videoconferencing (n = 26, 89.7%). Knowledge improvement was the most frequently measured outcome. There was no significant difference in learning outcomes between the two teaching modes. There were differences in learners' preferences and satisfaction with remote facilitators before and after COVID-19.

CONCLUSIONS

Our scoping review indicates that remote facilitation has been widely accepted in many healthcare professions using various types of simulation modalities. Remote facilitation can be used to overcome logistical problems of synchronous multi-location education, and to improve learner knowledge, skills, and confidence measured by instructor evaluation or self-assessment.

Telesimulation in healthcare education: A scoping review

OBJECTIVES

To provide a comprehensive overview on the utilization and effectiveness of telesimulation in healthcare education.

DESIGN

A scoping review.

DATA SOURCES

A search of five databases including PubMed, Web of Science, Cochrane, EMBASE and ProQuest was conducted between 2000 and 2022.

REVIEW METHODS

Arksey and O' Malley's scoping review framework was utilised. Data were narratively synthesised.

RESULTS

29 articles were included. More than half of the publications on telesimulation were borne out of need during the COVID-19 pandemic. Innovation reports were the most prevalent publications followed by descriptive studies. Telesimulation was applied for the delivery of diverse learning content including patient care management, procedural skills and team training. A variety of videoconferencing software and simulation modalities have been used for telesimulation. Telesimulation was generally well-received, despite its technical challenges. Learning effectiveness of telesimulation was evident in quasi-experimental studies.

CONCLUSION

Telesimulation has been gaining acceptance as a distance-based simulation education modality. It will continue to evolve and potentially blend with in-person simulation. More rigorous research is warranted to evaluate learning outcomes and establish best practices in telesimulation.

The role of telehealth in pediatric emergency care

In 2006, the Institute of Medicine published a report titled "Emergency Care for Children: Growing Pains," in which it described pediatric emergency care as uneven at best. Since then, telehealth has emerged as one of the great equalizers in care of children, particularly for those in rural and underresourced communities. Clinicians in these settings may lack pediatric-specific specialization or experience in caring for critically ill or injured children. Telehealth consultation can provide timely and safe management for many medical problems in children and can prevent many unnecessary and often long transport to a pediatric center while avoiding delays in care, especially for time-sensitive and acute interventions. Telehealth is an important component of pediatric readiness of hospitals and is a valuable tool in facilitating health care access in low resourced and critical access areas. This paper provides an overview of meaningful applications of telehealth programs in pediatric emergency medicine, discusses the impact of the COVID-19 pandemic on these services, and highlights challenges in setting up, adopting, and maintaining telehealth services.

Implementation of a North American pediatric emergency medicine simulation curriculum using the virtual resuscitation room

Background

Simulation provides consistent opportunities for residents to practice high-stakes, low-frequency events such as pediatric resuscitations. To increase standardization across North American residency programs, the Emergency Medicine Resident Simulation Curriculum for Pediatrics (EM ReSCu Peds) was developed. However, access to high-quality simulation/pediatric expertise is not uniform. As the concurrent COVID-19 pandemic necessitated new virtual simulation methods, we adapted the Virtual Resus Room (VRR) to teach EM ReSCu Peds. VRR is an award-winning, low-resource, open-access distance telesimulation platform we hypothesize will be effective and scalable for teaching this curriculum.

Methods

EM residents completed six VRR EM ReSCu Peds simulation cases and received immediate facilitator-led teledebriefing. Learners completed retrospective pre-post surveys after each case. Learners and facilitators completed end-of-day surveys. Primary outcomes were learning effectiveness measured by a composite of the Simulation Effectiveness in Teaching Modified (SET-M) tool and self-reported changes in learner comfort with case objectives. Secondary outcome was VRR scalability to teach EM ReSCu Peds using a composite outcome of net promoter scores (NPS), resource utilization, open-text feedback, and technical issues.

Results

Learners reported significantly increased comfort with 95% (54/57) of EM ReSCu Peds-defined case objectives (91% cognitive, 9% psychomotor), with moderate (Cohen's d 0.71, 95% CI 0.67-0.76) overall effect size. SET-M responses indicated simulation effectiveness, particularly with debriefing. Ninety EM residents from three North American residency programs were taught by 59 pediatric faculty from six programs over 4 days-more than possible if simulations were conducted in person. Learners (39) and faculty (68) NPS were above software industry benchmarks (13). Minor, quickly resolved, technical issues were reported by 18% and 29% of learners and facilitators, respectively.

Conclusions

Learners and facilitators report that the VRR is an effective and scalable platform to teach EM ReSCu Peds. This low-cost, accessible distance simulation intervention could increase equitable, global access to high-quality pediatric emergency education.

Exploring the Study of Simulation as a Continuing Professional Development Strategy for Physicians

INTRODUCTION

Practicing physicians have the responsibility to engage in lifelong learning. Although simulation is an effective experiential educational strategy, physicians seldom select it for continuing professional development (CPD) for reasons that are poorly understood. The objective of this study was to explore existing evidence on simulation-based CPD and the factors influencing physicians' engagement in simulation-based CPD.

METHODS

A scoping review of the literature on simulation-based CPD included MEDLINE, Embase, and CINAHL databases. Studies involving the use of simulation for practicing physicians' CPD were included. Information related to motivations for participating in simulation-based CPD, study objectives, research question(s), rationale(s), reasons for using simulation, and simulation features was abstracted.

RESULTS

The search yielded 8609 articles, with 6906 articles undergoing title and abstract screening after duplicate removal. Six hundred sixty-one articles underwent full-text screening. Two hundred twenty-five studies (1993-2021) were reviewed for data abstraction. Only four studies explored physicians' motivations directly, while 31 studies described incentives or strategies used to enroll physicians in studies on simulation-based CPD. Most studies focused on leveraging or demonstrating the utility of simulation for CPD. Limited evidence suggests that psychological safety, direct relevance to clinical practice, and familiarity with simulation may promote future engagement.

DISCUSSION

Although simulation is an effective experiential educational method, factors explaining its uptake by physicians as a CPD strategy are unclear. Additional evidence of simulation effectiveness may fail to convince physicians to participate in simulation-based CPD unless personal, social, educational, or contextual factors that shape physicians' motivations and choices to engage in simulation-based CPD are explored.

Tele-Simulated Instruction and Learner Perceptions of Fiberoptic Intubation and Nasopharyngoscopy: A Pilot Study

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Simulated patient perceptions of telesimulation education

Perspectives of simulated participants (SPs) as stakeholders in simulation education are under-represented. With rapid increase in virtual education and anticipation of post-pandemic continuation it is important to establish best practices. This work aims to determine SP perceptions of telesimulation.

In-depth semi-structured interviews determined SP opinions of participation in telesimulation. Thematic analysis utilizing an inductive and semantic iterative coding process was performed. SPs completed a survey of their demographics, experience and prior SP training, both virtual and in-person.

Data sufficiency occurred after 16 interviews (10 females/6 males; 15 White/1 Black/African American). Median age was 56 years (range 37–72). Median number of in-person simulation experiences was 100 (range 6–300) and 27 telesimulations (range 3–100). Thematic analysis identified five themes: (1) students behave differently (distracted, less professional, less prepared for ‘real life’, less nervous), (2) my performance – some things are easier and some harder (increased cognitive load, coming out of role more, difficulties with non-verbal aspect, more standardized performance), (3) it’s harder to connect with learners (different cues, less of a personal connection), (4) safety for all in telesimulation (as psychologically safe as in-person, appreciate opportunity to continue to educate/work, personal safety), (5) future applications of telesimulation (telehealth training, better access to education for learners).

SP perceptions of telesimulation education revealed appreciation of the educational modality and identified potential benefit in telehealth education. SPs were concerned about learner participation, professionalism and resultant preparation for clinical practice. Incorporating SP feedback into telesimulation education may be important to ensure high quality.

Facility-Oriented Simulation-Based Emergency Care Training in Kenya: A Practical Approach for Low- and Middle-Income Countries

One of the major obstacles to delivering effective emergency care in developing countries is a lack of adequate training. Facility-oriented, simulation-based emergency care training programs developed locally present an opportunity to improve the quality of emergency care in low- and middle-income countries. We describe the development and implementation of the emergency care course in Kenya and the strengths, weaknesses, opportunities, challenges, and recommendations for locally developed facility-oriented simulation-based emergency care training.

Application of telesimulation in a medical undergraduate course during the SARS-CoV-2 pandemic: a quantitative and retrospective study

BACKGROUND

Because of the social isolation and distancing measures that were imposed to stop the spread of coronavirus disease 19 (COVID-19), new ways of teaching were implemented.

OBJECTIVES

To describe the implementation of telesimulation and seek to assess students' perceptions regarding telesimulation.

DESIGN AND SETTING

Retrospective quantitative study conducted within the hospital simulation at a private medical school in São Paulo, Brazil.

METHODS

After telesimulation training, students answered a questionnaire that provided an overall assessment of this activity, self-assessment and assessments of the facilitators and infrastructure provided by the University.

RESULTS

Among the students, 50% reported that the activity was below expectations and 45% reported that it was in line with their expectations. The strong points of the activity were the clinical cases, workload and teachers. The main challenge was students' difficulty in reflecting on their learning and the infrastructure.

CONCLUSIONS

Since students have less experience and fewer clinical encounters than residents or professionals, they also face more difficulty. Although telesimulation may have provided a valid alternative to replace simulation training during the COVID-19 pandemic, more face-to-face activities should be offered to students, when possible.

Face-to-face versus distance learning of basic suturing skills in novice learners: a quantitative prospective randomized trial

BACKGROUND AND AIM

Traditionally, practical skills are taught on face-to-face (F-F) basis. COVID-19 pandemic brought distance learning (DL) to the spotlight because of the social distancing mandates. We sought to determine the acceptability and effectiveness of DL of basic suturing in novice learners.

METHODS

A prospective randomized controlled trial involving 118 students was conducted. Participants were randomized into two groups for learning simple interrupted suturing: F-F and DL-groups. Evaluation was conducted by two assessors using a performance checklist and a global rating tool. Agreement between the assessors was calculated, and performance scores of the participants were compared. Participants' satisfaction was assessed via a questionnaire.

RESULTS

Fifty-nine students were randomized to the F-F group and 59 to the DL-group. Satisfactory agreement between the assessors was demonstrated. All participants were successful in placing three interrupted sutures, with no significant difference in the performance between the groups. 25(44.6%) of the respondents in the DL-group provided negative comments related to the difficulties of remotely learning visuospatial concepts, 16(28.5%) preferred the F-F approach.

CONCLUSION

DL of basic suturing is as effective as the F-F approach in novice learners. It is acceptable by the students despite the challenges related to the remote learning of practical skills.

Donning and Doffing of Personal Protective Equipment: Perceived Effectiveness of Virtual Simulation Training to Decrease COVID-19 Transmission and Contraction

Introduction

The COVID-19 pandemic exposed gaps in the knowledge of correct donning and doffing of personal protective equipment (PPE) among healthcare workers, causing hospitals to ramp up training. However, social distancing measures forced most institutions and workplaces to shift to remote operations, allowing only essential personnel onsite. Virtual simulation is a growing trend in healthcare simulation education, even more so in this pandemic era. Yet, we have found no evidence of the perceived effectiveness of virtual simulation for training healthcare providers in the proper donning and doffing of PPE. This study aims to determine learner perceptions of the effectiveness of a virtual simulation PPE training module.

Methods

To address this gap, we used a virtual simulation training module in an online format to determine the perceived efficacy of this method of instruction with the contribution of a variety of healthcare providers and trainees, including physicians, surgeons, pharmacists, dentists, and nurses.

Results

We found a statistically significant difference in the confidence level of observing best practices of donning and doffing PPE before and after the training sessions. We also found that participants believe virtual simulation can be an effective educational tool for clinical skills.

Conclusions

This paper presents an international, guideline-based virtual simulation training module that can serve to educate, train, and assess healthcare workers in the proper sequence and technique of donning (putting on), doffing (removing), and disposing of PPE without contaminating themselves or others.

Conducting an Endoscopic Sinus Surgery Dissection Course via Telesimulation: An Initial Experience

Objective

Medical education has been severely disrupted by the COVID-19 pandemic, with many in-person educational activities transitioned to distance learning. To overcome this challenge, we utilized telesimulation to conduct an endoscopic sinus surgery (ESS) dissection course. Our objectives were to evaluate the effectiveness and acceptability of telesimulation as an alternative to in-person dissection courses for resident training.

Study Design

Cross-sectional study.

Setting

Academic medical centers.

Methods

The course, consisting of lectures and hands-on dissection, was conducted entirely over the Zoom platform. The participants were allocated outpatient clinic rooms at 2 hospitals, while the instructors supervised remotely. We utilized the camera systems in the clinics and 3-dimensional–printed sinus models for the dissection. Laptops with cameras were used to capture the endoscopic image and the dissector. We evaluated the effectiveness of telesimulation, the surgical skills of the participants, and the course by way of pre- and posttest and a questionnaire.

Results

A total of 8 participants and 7 instructors participated in the study. Telesimulation was found to be effective in helping participants gain knowledge and skills in ESS. All participants improved on their pretest scores (31.5% vs 73.4%, P = .003) and felt more comfortable with ESS postcourse (1.9 vs 3.2, P = .008). Participants and instructors opined that telesimulation is an acceptable alternative to in-person dissection courses.

Conclusion

Telesimulation is an effective, acceptable, and viable alternative to in-person dissection courses. It also has the advantage of overcoming temporal and geographic constraints to surgical training in residency.

SimUniversity at a distance: a descriptive account of a team-based remote simulation competition for health professions students

BACKGROUND

SimUniversity competition is an innovative Society in Europe for Simulation Applied to Medicine (SESAM) initiative which has existed since 2014, with the aim of creating opportunities for undergraduate healthcare students to take part in a formative educational experience on an international platform. The main educational focus is on promoting non-technical skills such as leadership, situation awareness, decision making, communication, and assertiveness, but also clinical reasoning within a team. In preparation for the 2021 virtual conference, the team designed a new methodology to meet the same mission, and yet be offered remotely.

MAIN TEXT

In this article, we describe the way in which we transformed the SimUniversity competition activity from face to face to a remote simulation. We relied on Zoom as the main communication technology to enable the distance component and followed the key elements of pre-briefing, simulation, and debriefing with the students being onsite together in one location and the faculty and simulator technologists in distant locations. Thirty-eight medical and nursing students formed 8 teams from 7 different countries. Two participating teams were based in Germany and one in Italy, Belgium, the Netherlands, Romania, Portugal, and Syria. Each team consisted of between 4 and 5 members and was self-selected to consist of either medical students alone or medical and nursing students together. The SimUniversity faculty team was composed of 5 physician educators, one nurse educator, one paramedic simulation technologist, and one industry simulation technologist. The faculty members facilitated each simulation synchronously in Zoom, while being based in different geographical locations within Europe (Germany, Switzerland, and the Netherlands) and the Middle East (Qatar and Lebanon).

CONCLUSION

We conclude that assuming there is access to adequate internet connectivity and minimal technical setup, conducting a remote simulation with virtual debriefing is achievable in supporting team-based learning, particularly when learners and/or faculty members are in distant locations. While the authors do not recommend this method to be superior to a face-to-face experience, we propose this model to be an alternative method to consider when educators are faced with imposed restrictions such as what we faced during the COVID-19 pandemic. We discuss lessons learned and highlight other potential benefits that this method may provide, to consider even when the restrictions are lifted.

Análise conceitual e aplicabilidade de telessimulação no ensino em saúde: Revisão de escopo

RESUMO Objetivo analisar o conceito de telessimulação e sua aplicabilidade no contexto do ensino em saúde. Método trata-se de uma análise conceitual, realizada através de uma scoping review realizada em maio de 2021, nas seguintes bases de dados: PubMed, PMC, Educational Resources Information Center, Web of Science, Science Direct, Scopus, LILACS, Scientific Electronic Library Online e Google Scholar, mediante o uso do descritor “telessimulação” e suas respectivas traduções para inglês e espanhol. Para análise dos estudos, avaliaram-se os atributos, antecedentes e consequentes do conceito. Resultados a telessimulação é definida como uma ramificação da simulação clínica que se caracteriza pela promoção/viabilização de práticas educativas no ensino em saúde, realizadas remotamente, síncrona, através de videochamada. Tem como objetivo facilitar o contato entre instrutores e participantes em situações de necessidade de distanciamento social, acesso dificultado por razões econômicas, como a escassez de recursos humanos e materiais, e/ou geograficamente distantes, com a intenção de desenvolver e aperfeiçoar competências e habilidades pertinentes as profissões da saúde. Conclusão e implicações para a prática a telessimulação representa uma nova oportunidade na formação em saúde, ao ampliar as possibilidades de ensino e romper barreiras que vão desde as geográficas até as econômicas.

Conceptual analysis and applicability of telesimulation in health education: A scoping review

ABSTRACT Objective to analyze the “telesimulation” concept and its applicability in the context of health education. Method this is a conceptual analysis performed through a scoping review carried out in May 2021 in the following databases: PubMed, PMC, Educational Resources Information Center, Web of Science, Science Direct, Scopus, LILACS, Scientific Electronic Library Online and Google Scholar, through the use of the descriptor “telesimulação” and its respective translations into English and Spanish. To analyze the studies, the concept’s attributes, antecedents, and consequences were assessed. Results telesimulation is defined as a branch of clinical simulation that is characterized by the promotion/enabling of educational practices in health education, performed remotely, synchronously, through video call. It aims to facilitate contact between instructors and participants in situations of need for social distance, access made difficult for economic reasons, such as the scarcity of human and material resources, and/or geographically distant, aiming at developing and improving relevant skills and abilities for health professions. Conclusion and implications for practice telesimulation represents a new opportunity in health education as it expands teaching possibilities and breaks down barriers ranging from geographic to economic.

Telesimulation as a modality for neonatal resuscitation training

Introduction: Telesimulation may allow simulationists to continue with essential simulation-based training programs during the COVID-19 pandemic. Hence, we investigated the feasibility of telesimulation for neonatal resuscitation training, assessed participants' attitudes towards telesimulation as well as its effect on neonatal resuscitation knowledge, and compared results between medical students and neonatal nurses. Methods: For this prospective observational pilot study, medical students and neonatal nursing staff were recruited on a voluntary basis. Pre- and post-training knowledge was assessed using a 20-question questionnaire. Following the educational intervention, participants further answered a six-item questionnaire on their perception of telesimulation. For the telesimulation session, participants received a simulation package including a low-fidelity mannequin and medical equipment. The one-hour telesimulation session was delivered by an experienced instructor and broadcasted via Cisco Webex for groups of 2-3 participants, covering all elements of the neonatal resuscitation algorithm and including deliberate technical skills practice. Results: Nine medical students and nine neonatal nurses participated in a total of seven telesimulation sessions. In general, participants enjoyed the telesimulation session, acknowledged a positive learning effect and found telesimulation suitable for neonatal resuscitation training, but were critical of potential technical issues, training logistics, and the quality of supervision and feedback. Neonatal resuscitation knowledge scores increased significantly after the educational intervention both for medical students and nurses. Conclusions: Telesimulation is feasible for neonatal resuscitation training and associated with significant improvements in knowledge of current resuscitation guidelines, without differences between medical students and neonatal nurses.

Comparison of In-Person and Telesimulation for Critical Care Training during the COVID-19 Pandemic

Background

The coronavirus disease (COVID-19) pandemic has disrupted medical education for trainees of all levels. Although telesimulation was initially used to train in resource-limited environments, it may be a reasonable alternative for replicating authentic patient experiences for medical students during the COVID-19 pandemic. It is unclear whether a more passive approach through telesimulation training is as effective as traditional in-person simulation training.

Objective

Our aim was to evaluate the effectiveness of in-person versus remote simulation training on learners’ comfort with managing critical care scenarios.

Methods

This was a prospective observational cohort study assessing the impact of an in-person versus remote simulation course on volunteer fourth-year medical students from February to April 2021 at the University of California San Diego School of Medicine. Precourse and postcourse surveys were performed anonymously using an online secure resource.

Results

In the in-person learners, there was statistically significant improvement in learner comfort across all technical, behavioral, and cognitive domains. In remote learners, there was a trend toward improvement in self-reported comfort across technical and cognitive domains in the telesimulation course. However, the only statistically significant improvement in postcourse surveys of telesimulation learners, compared with baseline, was in running codes. Regardless of the training modality, the students had a positive experience with the critical care simulation course, ranking it, on average, 9.6 out of 10 (9.9 in in-person simulation vs. 9.3 in telesimulation; P = 0.06).

Conclusion

We demonstrated that implementation of a telesimulation-based simulation course focusing on critical care cases is feasible and well received by trainees. Although a telesimulation-based simulation course may not be as effective for remote learners as active in-person participants, our study provided evidence that there was still a trend toward improving provider readiness across technical and cognitive domains when approaching critical care cases.

Implementation Barriers in Telesimulation as an Educational Strategy: An Interpretative Description

Introduction Telesimulation is one of the different methodologies for distance learning to promote competency in medical trainees. This methodology needs to have professors, students, and standardized patients in one session to perform a teleconsultation. Telesimulation could lead to multiple implementation barriers. This study aims to describe the implementation barriers through the perspective of the professors, students, and standardized patients in a telesimulation scenario in undergraduate medical education. Method We designed and applied a telesimulation scenario in undergraduate medical students. Then we conducted an online questionnaire with the critical incidents technique. The study sample was 18 professors, 26 standardized patients, and 407 students Results We describe a taxonomy with five categories and each one with different subcategories: knowledge (clinical simulation, theoretical over the clinical case, and use of simulators), facilities (access, time of use, and functionality), financing (payment to staff and purchase of equipment), attitude (acceptance and emotion), and participants (communication, collaborative work, and debriefing). Conclusion The description of the implementation barriers through multiple perspectives generates a taxonomy that could improve the quality of the telesimulation. This taxonomy is a proposal to consider the design, implementation, and evaluation when a telesimulation is implemented. The taxonomy could generate a structured plan when the educators implement the telesimulations at their own institutions considering all the barriers proposed.

Effectiveness of remote practical boards and telesimulation for the evaluation of emergency medicine trainees in India

PURPOSE

Travel restrictions during the pandemic created a barrier to the traditional in-person, observed assessment final examination of our emergency medicine (EM) training programs in India. We conducted remote practical boards and telesimulation bringing examiners and learners from different geographical locations together using an online video conferencing platform. The goal of this paper is to describe the process of implementing a large-scale, international remote practical boards and telesimulation event. We aim to describe the evaluations of the feasibility and effectiveness of remote practical boards and telesimulation in an examination scenario and the feedback regarding the perception of fairness and attitudes from both examiners and examinees.

METHODS

A total of 104 residents from 14 separate hospitals in eight cities across India were evaluated individually for practical board cases and in pairs for telesimulation. For practical boards, each examinee was evaluated twice, by two independent examiners. For telesimulation, each pair was evaluated by a local facilitator and a remote examiner via an online platform. There were 27 practical examiners and 14 local facilitators and 10 remote examiners for telesimulation. We obtained feedback in the form of a survey from local and remote examiners and examinees.

RESULTS

We implemented a large-scale, international remote practical boards and telesimulation event, connecting examinees and local examiners in eight cities in India with examiners in the United States and United Kingdom. Feedback was obtained from 24 examiners and 103 examinees. A total of 96.7% examiners and 96.9% of examinees felt that this examination was fair. All respondents agreed that this format saved time and costs.

CONCLUSION

This remote practical boards and telesimulation experience was a feasible and effective way to evaluate EM examinees medical knowledge, communication, and procedural skills. Technology issues was a limitation of our telesimulation experience. Future studies on telesimulation use in global EM training would be useful.

Telesimulation for remote simulation and assessment

Telesimulation (TS), the process of using the internet to link educators and trainees at locations remote from one another, harnesses the powers of technology to enable access to high-quality simulation-based education and assessment to learners across the globe. From its first uses in the teaching and assessment of laparoscopic skills to more recent interpretations during the current pandemic, TS has shown promise in helping educators to address pressing dilemmas in medical education.

Ultrasound-guided regional anesthesia: feasibility and effectiveness of teaching via telesimulation in Ethiopia

BACKGROUND

Acute pain management in resource-poor countries remains a challenge. Ultrasound-guided regional anesthesia is a cost-effective way of delivering analgesia in these settings. However, for financial and logistical reasons, educational workshops are inaccessible to many physicians in these environments. Telesimulation provides a way of teaching across distance by using simulators and video-conferencing software to connect instructors and students worldwide. We conducted a prospective study to determine the feasibility of ultrasound-guided regional anesthesia teaching via telesimulation in Ethiopia.

METHODS

Eighteen Ethiopian orthopedic and emergency medicine house staff participated in telesimulation teaching of ultrasound-guided femoral nerve block. This consisted of four 90-min sessions, once per week. Week 1 consisted of a precourse test and a presentation on aspects of performing a femoral nerve block, weeks 2 and 3 were live teaching sessions on scanning and needling techniques, and in week 4, the house staff undertook a postcourse test. All participants were assessed using a validated Global Rating Scale and Checklist.

RESULTS

Participants were provided with a validated checklist and global rating scale as a pretest and post-test. The participants showed significant improvement in their test scores, from a total mean of 51% in the pretest to 84% in their post-test.

CONCLUSIONS

Teaching ultrasound-guided regional anesthesia of the femoral nerve remotely via telesimulation is feasible. Telesimulation can greatly improve the accessibility of ultrasound-guided regional anesthesia teaching to physicians in remote areas.

Leveraging Videoconferencing Technology to Augment Surgical Training During a Pandemic

Our objective was to review the use of videoconferencing as a practical tool for remote surgical education and to propose a model to overcome the impact of a pandemic on resident training.

Summary Background Data

In response to the coronavirus disease 2019 pandemic, most institutions and residency programs have been restructured to minimize the number of residents in the hospital as well as their interactions with patients and to promote physical distancing measures. This has resulted in decreased resident operative exposure, responsibility, and autonomy, hindering their educational goals and ability to achieve surgical expertise necessary for independent practice.

Methods

We conducted a narrative review to explore the use of videoconferencing for remote broadcasting of surgical procedures, telecoaching using surgical videos, telesimulation for surgical skills training, and establishing a didactic lecture series.

Results and Conclusions

We present a multimodal approach for using practical videoconferencing tools that provide the means for audiovisual communication to help augment residents' operative experience and limit the impact of self-isolation, redeployment, and limited operative exposure on surgical training.

The effects of mobile health on emergency care in low- and middle-income countries: A systematic review and narrative synthesis

BACKGROUND

In resource-constrained settings, mobile health (mHealth) has varied applications. While there is strong evidence for its use in chronic disease management, the applications of mHealth for management of acute illness in low- and middle-income countries (LMICs) are not as well described. This review systematically explores current available evidence on the effectiveness of mHealth interventions at improving health outcomes in emergency care settings in LMICs.

METHODS

A systematic search of the literature was performed in accordance with PRISMA guidelines, utilizing seven electronic databases and manual searches to identify peer-reviewed literature containing each of three search elements: mHealth, emergency care (EC), and LMICs. Articles quality was assessed using the Grading of Recommendations Assessment, Development and Evaluation (GRADE) criteria.

RESULTS

After removing duplicates, 6498 studies met initial search criteria; 108 were eligible for full text review and 46 met criteria for inclusion. Thirty-six pertained to routine emergency care, and 10 involved complex humanitarian emergencies. Based on the GRADE criteria, 15 studies were rated as "Very Low" quality, 24 as "Low" quality, 6 as "Moderate" quality, and 1 as "High" quality. Eight studied data collection, 9 studied decision support, 15 studied direct patient care, and 14 studied health training. All 46 studies reported positive impacts of mHealth on EC in LMICs.

CONCLUSIONS

Mobile health interventions can be effective in improving provider-focused and patient-centered outcomes in both routine and complex EC settings. Future investigations focusing on patient-centered outcomes are needed to further validate these findings.

TeleSimBox: A perceived effective alternative for experiential learning for medical student education with social distancing requirements

INTRODUCTION

During the COVID-19 pandemic the Association of American Medical Colleges recommended that medical students not be involved with in-person patient care or teaching, necessitating alternative learning opportunities. Subsequently we developed the telesimulation education platform: TeleSimBox. We hypothesized that this remote simulation platform would be feasible and acceptable for faculty use and a perceived effective method for medical student education.

METHODS

Twenty-one telesimulations were conducted with students and educators at four U.S. medical schools. Sessions were run by cofacilitator dyads with four to 10 clerkship-level students per session. Facilitators were provided training materials. User-perceived effectiveness and acceptability were evaluated via descriptive analysis of survey responses to the Modified Simulation Effectiveness Tool (SET-M), Net Promoter Score (NPS), and Likert-scale questions.

RESULTS

Approximately one-quarter of students and all facilitators completed surveys. Users perceived that the sessions were effective in teaching medical knowledge and teamwork, though less effective for family communication and skills. Users perceived that the telesimulations were comparable to other distance learning and to in-person simulation. The tool was overall positively promoted.

CONCLUSION

Users overall positively scored our medical student telesimulation tool on the SET-M objectives and promoted the experience to colleagues on the NPS. The next steps are to further optimize the tool.

Advances in anesthesia education: increasing access and collaboration in medical education, from E-learning to telesimulation

PURPOSE OF REVIEW

The landscape of medical education continues to evolve. Educators and learners must stay informed on current medical literature, in addition to focusing efforts on current educational trends and evidence-based methods. The present review summarizes recent advancements in anesthesiology education, specifically highlighting trends in e-learning and telesimulation, and identifies possible future directions for the field.

RECENT FINDINGS

Websites and online platforms continue to be a primary source of educational content; top websites are more likely to utilize standardized editorial processes. Podcasts and videocasts are important tools desired by learners for asynchronous education. Social media has been utilized to enhance the reach and visibility of journal articles, and less often as a primary educational venue; its efficacy in comparison with other e-learning platforms has not been adequately evaluated. Telesimulation can effectively disseminate practical techniques and clinical knowledge sharing, extending the capabilities of simulation beyond previous restrictions in geography, space, and available expertise.

SUMMARY

E-learning has changed the way anesthesiology learners acquire knowledge, expanding content and curricula available and promoting international collaboration. More work should be done to expand the principles of accessible and collaborative education to psychomotor and cognitive learning via telesimulation.

Alternatives to High-Fidelity Simulation

Simulation-based education improves health care professionals' performance in managing critical events. Limitations to widespread uptake of high-fidelity simulation include barriers related to training, technology, and time. Alternatives to high-fidelity simulation that overcome these barriers include in situ simulation, classroom-based simulation, telesimulation, observed simulation, screen-based simulation, and game-based simulation. Some settings have limited access to onsite expert facilitation to design, implement, and guide participants through simulation-based education. Alternatives to onsite expert debriefing in these settings include teledebriefing, scripted debriefing, and within-group debriefing. A combination of these alternatives promotes successful implementation and maintenance of simulation-based education for managing critical health care events.

The sim must go on: adapting resident education to the COVID-19 pandemic using telesimulation

The COVID-19 pandemic and social distancing rules necessitated the suspension of all in-person learning activities at our institution. Consequently, distance learning became essential. We adapted a high-fidelity immersive case-based simulation scenario for telesimulation by using the virtual meeting platform Zoom® to meet our curricular needs. The use of telesimulation to teach a complex case-based scenario is novel. Two cohorts of anesthesiology residents participated 2 weeks apart. All learners were located at home. Four faculty members conducted the telesimulation from different locations within our simulation center in the roles of director, simulation operator, confederate anesthesiologist, and confederate surgeon. The anesthesiologist performed tasks as directed by learners. The scenario was divided into four scenes to permit reflection on interventions/actions by the participants based on the clinical events as the scenario progressed, to facilitate intermittent debriefing and learner engagement. All residents were given a medical knowledge pretest before the telesimulation and a posttest and learner satisfaction survey at the conclusion. The scenario was authentic and immersive, represented an actual case, and provided the opportunity to practice lessons that could be applied in the clinical setting. Participants rated telesimulation a reasonable substitution for in-person learning and expressed gratitude for continuation of their simulation-based education in this format during the pandemic. Participants in the second cohort reported feeling more engaged (p = 0.008) and stimulated to think critically (p = 0.003). Audio quality was the most frequently noted limitation. Fifty-three residents completed both pre- and posttests. The two cohorts did not differ in knowledge pretest scores (62% vs 60%, p = 0.80) or posttest scores (78% vs. 77%, p = 0.87). Overall, knowledge scores improved with the telesimulation intervention (pretest mean = 61% [SD = 14%]; posttest mean = 78% [SD = 12%]; t (41) = - 7.89, p < 0.001). Thus, using a Zoom format, we demonstrated the feasibility of adapting a complex case for telesimulation and effective knowledge gain. Furthermore, we improved our process in real time based on participant feedback. Participants were satisfied with their learning experience, suggesting that this format may be used in other distance learning situations.

Telementoring for remote simulation instructor training and faculty development using telesimulation

Introduction

Simulation-based training is essential for high-quality medical care, but it requires access to equipment and expertise. Technology can facilitate connecting educators to training in simulation. We aimed to explore the use of remote simulation faculty development in Latvia using telesimulation and telementoring with an experienced debriefer located in the USA.

Methods

This was a prospective, simulation-based longitudinal study. Over the course of 16 months, a remote simulation instructor (RI) from the USA and a local instructor (LI) in Latvia cofacilitated with teleconferencing. Responsibility gradually transitioned from the RI to the LI. At the end of each session, students completed the Debriefing Assessment for Simulation in Healthcare (DASH) student version form (DASH-SV) and a general feedback form, and the LI completed the instructor version of the DASH form (DASH-IV). Outcome measures were the changes in DASH scores over time.

Results

A total of eight simulation sessions were cofacilitated of 16 months. As the role of the LI increased over time, the debrief quality measured with the DASH-IV did not change significantly (from 89 to 87), although the DASH-SV score decreased from a total median score of 89 (IQR 86–98) to 80 (IQR 78–85) (p=0.005).

Conclusion

In this study, telementoring with telesimulations resulted in high-quality debriefing. The quality—perceived by the students—was higher with the involvement of the remote instructor and declined during the transition to the LI. This concept requires further investigation and could potentially build local simulation expertise promoting sustainability of high-quality simulation.

Applying Educational Theory and Best Practices to Solve Common Challenges of Simulation-based Procedural Training in Emergency Medicine

OBJECTIVES

Procedural competency is an essential prerequisite for the independent practice of emergency medicine. Multiple studies demonstrate that simulation-based procedural training (SBPT) is an effective method for acquiring and maintaining procedural competency and preferred over traditional paradigms ("see one, do one, teach one"). Although newer paradigms informing SBPT have emerged, educators often face circumstances that challenge and undermine their implementation. The goal of this paper is to identify and report on best practices and theory-supported solutions to some of these challenges as derived using a process of expert consensus building and reviews of the existing literature on SBPT.

METHODS

The Society for Academic Emergency Medicine (SAEM) Simulation Academy SBPT Workgroup convened approximately 8 months prior to the 2019 SAEM Annual Meeting to perform a review of the literature and participate in a consensus-building process to identify solutions (in the form of best practices and educational theory) to these challenges faced by educators engaging in SBPT.

RESULTS AND ANALYSIS

Thirteen distinct educational challenges to SBPT emerged from the expert group's primary literature reviews and consensus-building processes. Three domains emerged upon further analysis of the 13 challenges: learner, educator, and curriculum. Six challenges within the "learner" domain were selected for comprehensive discussion in this paper, as they were deemed representative of the most common and most significant threats to ideal SBPT. Each of the six challenges aligns with one of the following themes: 1) maximizing active learning, 2) maintaining learner engagement, 3) embracing learner diversity, 4) optimizing cognitive load, 5) promoting mindfulness and reflection, and 6) emphasizing deliberate practice for mastery learning. Over 20 "special treatments" for mitigating the impact of the 13 challenges were derived from the secondary literature search and consensus-building process prior to and during the preconference workshop; 11 of these that best address the six learner-centered challenges are explored, including implications for educators involved in SBPT.

CONCLUSIONS/IMPLICATIONS FOR EDUCATORS

We propose multiple consensus-generated solutions (in the form of best practices and applied educational theory) that we believe are suitable and well aligned to overcome commonly encountered learner-centered challenges and threats to optimal SBPT.

Evaluation of a Mobile Telesimulation Unit to Train Rural and Remote Practitioners on High-Acuity Low-Occurrence Procedures: Pilot Randomized Controlled Trial

Background

The provision of acute medical care in rural and remote areas presents unique challenges for practitioners. Therefore, a tailored approach to training providers would prove beneficial. Although simulation-based medical education (SBME) has been shown to be effective, access to such training can be difficult and costly in rural and remote areas.

Objective

The aim of this study was to evaluate the educational efficacy of simulation-based training of an acute care procedure delivered remotely, using a portable, self-contained unit outfitted with off-the-shelf and low-cost telecommunications equipment (mobile telesimulation unit, MTU), versus the traditional face-to-face approach. A conceptual framework based on a combination of Kirkpatrick’s Learning Evaluation Model and Miller’s Clinical Assessment Framework was used.

Methods

A written procedural skills test was used to assess Miller’s learning level— knows —at 3 points in time: preinstruction, immediately postinstruction, and 1 week later. To assess procedural performance (shows how), participants were video recorded performing chest tube insertion before and after hands-on supervised training. A modified Objective Structured Assessment of Technical Skills (OSATS) checklist and a Global Rating Scale (GRS) of operative performance were used by a blinded rater to assess participants’ performance. Kirkpatrick’s reaction was measured through subject completion of a survey on satisfaction with the learning experiences and an evaluation of training.

Results

A total of 69 medical students participated in the study. Students were randomly assigned to 1 of the following 3 groups: comparison (25/69, 36%), intervention (23/69, 33%), or control (21/69, 31%). For knows, as expected, no significant differences were found between the groups on written knowledge (posttest, P=.13). For shows how, no significant differences were found between the comparison and intervention groups on the procedural skills learning outcomes immediately after the training (OSATS checklist and GRS, P=1.00). However, significant differences were found for the control versus comparison groups (OSATS checklist, P<.001; GRS, P=.02) and the control versus intervention groups (OSATS checklist, P<.001; GRS, P=.01) on the pre- and postprocedural performance. For reaction, there were no statistically significant differences between the intervention and comparison groups on the satisfaction with learning items (P=.65 and P=.79) or the evaluation of the training (P=.79, P=.45, and P=.31).

Conclusions

Our results demonstrate that simulation-based training delivered remotely, applying our MTU concept, can be an effective way to teach procedural skills. Participants trained remotely in the MTU had comparable learning outcomes (shows how) to those trained face-to-face. Both groups received statistically significant higher procedural performance scores than those in the control group. Participants in both instruction groups were equally satisfied with their learning and training (reaction). We believe that mobile telesimulation could be an effective way of providing expert mentorship and overcoming a number of barriers to delivering SBME in rural and remote locations.

A Simple Low-Cost Method to Integrate Telehealth Interprofessional Team Members During In Situ Simulation

INTRODUCTION

With the growth of telehealth, simulation personnel will be called upon to support training that integrates these new technologies and processes. We sought to integrate remote telehealth electronic intensive care unit (eICU) personnel into in situ simulations with rural emergency department (ED) care teams. We describe how we overcame technical challenges of creating shared awareness of the patient's condition and the care team's progress among those executing the simulation, the care team, and the eICU.

METHODS

The objective of the simulations was to introduce telehealth technology and new processes of engaging the eICU via telehealth during sepsis care in 2 rural EDs. Scenario development included experts in sepsis, telehealth, and emergency medicine. We describe the operational systems challenges, alternatives considered, and solutions used. Participants completed surveys on self-confidence presimulation/postsimulation in using telehealth and in managing patients with sepsis (1-10 Likert scale, with 10 "completely confident"). Pre-post responses were compared by two-tailed paired t test.

RESULTS

We successfully engaged the staff of two EDs: 42 nurses, 9 physicians or advanced practice providers, and 9 technicians (N = 60). We used a shared in situ simulation clinical actions observational checklist, created within an off-the-shelf survey software program, completed during the simulations by an on-site observer, and shared with the eICU team via teleconferencing software, to message and cue eICU nurse engagement. The eICU nurse also participated in debriefing via the telehealth video system with successful simulation engagement. These solutions avoided interfering with real ED or eICU operations. The postsimulation mean ± SD ratings of confidence using telehealth increased from 5.3 ± 2.9 to 8.9 ± 1.1 (Δ3.5, P < 0.05) and in managing patients with sepsis increased from 7.1 ± 2.5 to 8.9 ± 1.1 (Δ1.8, P < 0.05).

CONCLUSIONS

We created shared awareness between remote eICU personnel and in situ simulations in rural EDs via a low-cost method using survey software combined with teleconferencing methods.

Use of Telemedicine to Improve Neonatal Resuscitation

Most newborn infants do well at birth; however, some require immediate attention by a team with advanced resuscitation skills. Providers at rural or community hospitals do not have as much opportunity for practice of their resuscitation skills as providers at larger centers and are, therefore, often unable to provide the high level of care needed in an emergency. Education through telemedicine can bring additional training opportunities to these rural sites in a low-resource model in order to better prepare them for advanced neonatal resuscitation. Telemedicine also offers the opportunity to immediately bring a more experienced team to newborns to provide support or even lead the resuscitation. Telemedicine can also be used to train and assist in the performance of emergent procedures occasionally required during a neonatal resuscitation including airway management, needle thoracentesis, and umbilical line placement. Telemedicine can provide unique opportunities to significantly increase the quality of neonatal resuscitation and stabilization in rural or community hospitals.

An Evaluation of the Role of Simulation Training for Teaching Surgical Skills in Sub-Saharan Africa

Background

An estimated 5 billion people worldwide lack access to any surgical care, whilst surgical conditions account for 11–30% of the global burden of disease. Maximizing the effectiveness of surgical training is imperative to improve access to safe and essential surgical care on a global scale. Innovative methods of surgical training have been used in sub-Saharan Africa to attempt to improve the efficiency of training healthcare workers in surgery. Simulation training may have an important role in up-scaling and improving the efficiency of surgical training and has been widely used in SSA. Though not intended to be a systematic review, the role of simulation for teaching surgical skills in Sub-Saharan Africa was reviewed to assess the evidence for use and outcomes.

Methods

A systematic search strategy was used to retrieve relevant studies from electronic databases PubMed, Ovid, Medline for pertinent articles published until August 2016. Studies that reported the use of simulation-based training for surgery in Africa were included.

Results

In all, 19 articles were included. A variety of innovative surgical training methods using simulation techniques were identified. Few studies reported any outcome data. Compared to the volume of surgical training initiatives that are known to take place in SSA, there is very limited good quality published evidence for the use of simulation training in this context.

Conclusions

Simulation training presents an excellent modality to enhance and improve both volume and access to high quality surgical skills training, alongside other learning domains. There is a desperate need to meticulously evaluate the appropriateness and effectiveness of simulation training in SSA, where simulation training could have a large potential beneficial impact. Training programs should attempt to assess and report learner outcomes.

Pediatric Trauma Care in Low Resource Settings: Challenges, Opportunities, and Solutions

Trauma constitutes a significant cause of death and disability globally. The vast majority -about 95%, of the 5.8 million deaths each year, occur in low-and-middle-income countries (LMICs) 3-6. This includes almost 1 million children. The resource-adapted introduction of trauma care protocols, regionalized care and the growth specialized centers for trauma care within each LMIC are key to improved outcomes and the lowering of trauma-related morbidity and mortality globally. Resource limitations in LMICs make it necessary to develop injury prevention strategies and optimize the use of locally available resources when injury prevention measures fail. This will lead to the achievement of the best possible outcomes for critically ill and injured children. A commitment by the governments in LMICs working alone or in collaboration with international non-governmental organizations (NGOs) to provide adequate healthcare to their citizens is also crucial to improved survival after major trauma. The increase in global conflicts also has significantly deleterious effects on children, and governments and international organizations like the United Nations have a significant role to play in reducing these. This review details the evaluation and management of traumatic injuries in pediatric patients and gives some recommendations for improvements to trauma care in LMICs.