Elsevier

Journal of Surgical Education

Volume 80, Issue 9, September 2023, Pages 1268-1276
Journal of Surgical Education

ORIGINAL REPORTS
Developing a Surgical Simulation Curriculum for the Rwandan Context

https://doi.org/10.1016/j.jsurg.2023.06.007Get rights and content

Highlights

  • We created a 17-session simulation week with 8 additional sessions in the 11-week clerkship.
  • All simulation topics were adopted through a modified Delphi process.
  • This work highlights the role of partnership to advance and innovate within surgical education.

Objective

We report on the development and implementation of a surgical simulation curriculum for undergraduate medical students in rural Rwanda.

Design

This is a narrative report on the development of scenario and procedure-based content for a junior surgical clerkship simulation curriculum by an interdisciplinary team of simulation specialists, surgeons, anesthesiologists, medical educators, and medical students.

Setting

University of Global Health Equity, a new medical school located in Butaro, Rwanda.

Participants

Participants in this study consist of simulation and surgical educators, surgeons, anesthesiologists, research fellows and University of Global Health Equity medical students enrolled in the junior surgery clerkship.

Results

The simulation training schedule was designed to begin with a 17-session simulation-intensive week, followed by 8 sessions spread over the 11-week clerkship. These sessions combined the use of high-fidelity mannequins with improvised, bench-top surgical simulators like the GlobalSurgBox, and low-cost gelatin-based models to effectively replace resource intensive options.

Conclusions

Emphasis on contextualized content generation, low-cost application, and interdisciplinary design of simulation curricula for low-income settings is essential. The impact of this curriculum on students’ knowledge and skill acquisition is being assessed in an ongoing fashion as a substrate for iterative improvement.

Section snippets

INTRODUCTION

Simulation-based education plays a critical role in providing a low risk, highly effective teaching environment for both technical and nontechnical surgical skills.1-3 Simulation based training is increasingly utilized across medical schools in high-income settings.4 However, this is not the case in Low- and Middle-Income Countries (LMIC). Barriers to integrating simulation based surgical education into curricula in these settings- particularly in East, West, and Southern Africa- include high

MATERIALS AND METHODS

The study team generated this curriculum for a new medical school located in the rural, northwest region of Rwanda. It is the second medical school in the country and currently has 3 cohorts of medical students who are engaged in a 6-year dual-degree program that includes a master in global health delivery. Clinical teaching occurs at a district-level hospital and center for excellence in cancer care.6

RESULTS

The final product of this surgical simulation curriculum development process is 2-fold: an introductory surgical simulation intensive week (Table 1) and an 8-session surgical simulation curriculum integrated into the junior surgery clerkship (Table 2). The surgical simulation intensive week is a primer for students who have little or no surgical experience and is aimed at preparing students to be contributory participants in the operating room and on the surgical wards by equipping them with

DISCUSSION

Our multidisciplinary team was able to develop a comprehensive and contextually appropriate surgical simulation curriculum within a rural medical school in a low-income country. This effort was driven by providers and professionals working in this setting with support from high-income country partners. In total, a 17-session surgical intensive simulation week and 8-session simulation curriculum was developed.
Simulation continues to grow as an appropriate modality for medical education.17, 18, 19

CONCLUSION

Our team successfully designed and implemented a 17-session surgical intensive simulation week and 8-session simulation longitudinal curriculum for a rural medical school in a low-income country by maximizing the unique strengths of LMIC-HIC partnerships.
Simulation represents an additive component for medical education in LMICs. With careful planning, appropriate leadership, and a systematic approach it is possible to successfully develop and implement a surgical simulation curriculum that is

FUNDING

This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.

ACKNOWLEDGMENTS

The authors of this manuscript would like to recognize the efforts of Persephone Giannarikas and Drs. Simon Pierre Bigirimana, Jules Iradukunda, Jean Paul Majyambere, Andrew Eyre, and Natalie McCall in making this work possible.

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      Therefore, this study presents the development and implementation of an intensive surgical simulation week for two cohorts of undergraduate medical students in rural Butaro, Rwanda in early 2023. Our work builds on an existing surgical simulation curriculum designed to address the needs of surgical teams practicing in district hospitals, which prioritized content areas based on a modified Delphi process carried across sub-Saharan Africa, and was first taught in 2022.8 We sought to enhance the training of medical students by augmenting interactive clinical scenarios, introducing new benchtop task-trainer models, and evaluating the students’ experiences with these methods.

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    • A national perspective on exposure to essential surgical procedures among medical trainees in Nigeria: a cross-sectional survey and recommendations

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    a
    Denotes cofirst author.
    b
    Denotes cosenior author.
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