AI Article Synopsis
- The review emphasizes the resurgence of simulation-based training in cardiac surgery, particularly for mitral valve repair, due to increasing case complexity and a safety focus.
- It highlights the various types of simulators, which range from low to high fidelity, and discusses the importance of aligning these tools with specific training goals.
- Although simulations have shown to enhance performance in training environments, further research is needed to establish their impact on real-world clinical outcomes and patient safety.
Article Abstract
Purpose Of Review: With the growing complexity of cardiac surgical cases, increased focus on patient safety, and minimally invasive techniques, simulation-based training has experienced a renaissance. This review highlights important elements of simulation-based training, focusing specifically on available simulators for mitral valve repair and the uses for simulation.
Recent Findings: Referring to simulators as being high or low fidelity is oversimplified. Fidelity is a multifactorial concept, and for surgical task trainers, structural and functional fidelity should be discussed. For mitral valve repair, there are a spectrum of simulators, including tissue-based models, bench-top models, and hybrid models. All these simulator modalities serve a role in training if they align with predetermined objectives. There have been advancements in mitral valve repair simulation, notably patient-specific 3D printed silicone replicas of disease.
Summary: There is evidence to support that simulation improves performance in the simulated environment, but future investigation should look to determine whether simulation improves performance in the clinical setting and ultimately patient outcomes.
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