Jeffery Northway, MS; Emily Patula, BS; Kaydon Morgan, BS; Farzana Hoque, MD, MRCP
WMJ. 2026;125(1):99-104.
ABSTRACT
Introduction: Simulation-based training (SBT) has long played a role in health care education, evolving from rudimentary anatomical models to sophisticated digital platforms. Over time, simulation to include life-like mannequins, standardized patients, and immersive virtual environments, significantly enhancing the ability to teach clinical skills, communication, and decision-making in safe, controlled settings. As medical education continues to adapt to new challenges, simulation remains a cornerstone for preparing health care professionals through realistic and experiential learning.
Objectives: This review examines the evolution and current applications of simulation in medical education, highlighting its integration within military and civilian training environments. It describes major simulation modalities, reviews evidence supporting their effectiveness, and evaluates commonly used assessment tools. The review also outlines potential future directions for simulation-based education in response to the evolving needs of modern health care.
Methods: Relevant literature was identified through searches of PubMed and other academic databases. Articles were selected based on their relevance to the review objectives, including the historical development of simulation, its applications in diverse educational settings, and emerging technologies shaping the field.
Results: SBT has been widely adopted across all levels of health care education – from medical and nursing schools to residency programs and continuing professional development. It enhances technical skills, clinical reasoning, teamwork, and communication in structured environments. Civilian and military programs alike benefit from simulation’s ability to replicate complex, high-stakes clinical scenarios. However, measuring its direct impact on clinical performance and patient outcomes remains challenging.
Conclusions: SBT is an essential component of modern medical education, enhancing clinical skills and helping bridging the gap between knowledge and practice. As technology advances, simulation offers new opportunities for personalized and scalable learning. Moving forward, educators must implement these innovations thoughtfully, maintaining a focus on empathy and patient-centered care.