Mimi X Deng, Dominique Vervoort, Israel Valverde, Shi-Joon Yoo, Brandon Peel, Rachel D Vanderlaan, David J Barron, Osami Honjo
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引用次数: 0
Abstract
Reaching competency in congenital heart surgery (CHS) requires lengthy and rigorous training. Due to patient safety, time limitations, and procedural complexity, the intraoperative setting is not ideal for technical practice. Surgical simulation using synthetic, biological, or virtual models is an increasingly valuable educational tool for technical training and assessment. In particular, three-dimensional (3D) models are especially favorable in CHS education for its high-fidelity demonstration of congenital heart defects. In countries where there is a deficit of local cardiac surgical expertise, simple and inexpensive innovation, such as expanding hands-on technical training programs involving 3D-models and hybrid teaching, may partially address the lack of CHS training opportunities and the consequent unmet need for surgical management of pediatric heart disease.
期刊介绍:
Research advances have contributed to improved outcomes across all specialties, but the rate of advancement in cardiology has been exceptional. Concurrently, the population of patients with cardiac conditions continues to grow and greater public awareness has increased patients" expectations of new drugs and devices. Future Cardiology (ISSN 1479-6678) reflects this new era of cardiology and highlights the new molecular approach to advancing cardiovascular therapy. Coverage will also reflect the major technological advances in bioengineering in cardiology in terms of advanced and robust devices, miniaturization, imaging, system modeling and information management issues.
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