The Use of Simulation in Vascular Surgery Education: Current State and Future Directions

Simulation-based training (SBT) has become essential in vascular surgery education, providing a risk-free environment for skill development. This scoping review evaluates the current state of vascular surgery simulation, highlighting validated models, educational impact, and areas for improvement. A...

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Bibliographic Details
Published inSeminars in vascular surgery Vol. 38; no. 2; pp. 163 - 171
Main Authors Fereydooni, Arash, Sgroi, Michael David
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.06.2025
Subjects
3D models
Animals
Clinical Competence
Computer Simulation
Computer-Assisted Instruction - trends
Curriculum
Education, Medical, Graduate - methods
Education, Medical, Graduate - trends
Forecasting
Humans
Simulation
Simulation Training - trends
Surgeons - education
Surgery
Surgical skills
Task Performance and Analysis
Vascular surgery education
Vascular Surgical Procedures - education
Virtual Reality
Surgical skills
Simulation
3D models
Vascular surgery education
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Summary:Simulation-based training (SBT) has become essential in vascular surgery education, providing a risk-free environment for skill development. This scoping review evaluates the current state of vascular surgery simulation, highlighting validated models, educational impact, and areas for improvement. A systematic literature search was conducted in PubMed, Embase, and Scopus, following PRISMA-ScR guidelines. Studies assessing validated simulation models for open and endovascular procedures, vascular anastomosis, carotid interventions, peripheral vascular interventions, and nontechnical skills training were included. Data extraction focused on fidelity, skill acquisition, procedural efficiency, and accessibility. Validated high-fidelity models, including 3D-printed, virtual reality (VR), and pulsatile cadaveric systems, significantly enhance technical proficiency and confidence. Bench and porcine models improve vascular anastomosis training, while VR-based simulators enhance catheter manipulation and decision-making. However, simulation remains limited by high costs, accessibility challenges, and lack of standardized nontechnical skills training. Simulation improves competency in vascular surgery but requires further integration into training curricula. AI-driven assessments, hybrid simulation models, and expanded cost-effective solutions are needed to bridge existing gaps. Standardization and broader adoption of simulation will enhance competency-based training and improve patient outcomes.
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ISSN:0895-7967
1558-4518
1558-4518
DOI:10.1053/j.semvascsurg.2025.03.001