运用DSI Studio纤维重建技术加强神经解剖学教学。

IF 1.8 Q2 EDUCATION, SCIENTIFIC DISCIPLINES

Advances in Medical Education and Practice Pub Date : 2025-05-22 eCollection Date: 2025-01-01 DOI:10.2147/AMEP.S522454

Junfeng Zeng, Lihong Shi, Yongbo Liu, Jian Yang, Luqing Zhang, Huifang Song, Yunhe Zhao, Jing Yang, Xiaolong Cheng, Li Lu

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引用次数: 0

摘要

背景：DSI Studio是一款先进的成像软件，专门为扩散磁共振成像（dMRI）的分析而设计。它的主要特点，包括纤维重建、纤维跟踪和三维可视化，已经确立了它在神经科学研究中的重要作用。目的：对空间关系的深刻理解对学生学习解剖学至关重要。然而，在中国医学教育中，将三维成像技术融入解剖教学的研究还很有限。为了解决这一差距，我们利用DSI Studio进行了一项创新研究，以加强神经解剖学教育。方法：利用DSI Studio进行神经解剖学工作坊纤维重建和三维可视化的创新研究。共有38名学生参加了实践环节，其中13人完成了培训前调查，19人完成了培训后调查。系统记录学员在训练前对神经解剖学的理解情况，以及在神经解剖学学习过程中的表现和经验。此外，DSI Studio软件在增强神经解剖学学习方面的有效性与软件的重建能力一起进行了评估。结果：DSI Studio的应用显著提高了学生对神经结构的可视化，突破了传统教学的局限。它增强了他们对三维大脑解剖学的理解，提高了他们的热情，提高了学习效率。工作坊支持学生在知识获取阶段的进步——理解、掌握和应用。结论：DSI工作室展示了作为神经解剖学教育工具的潜力，提供了一个有利于实现学习目标的支持性和灵活的学习环境。我们的研究结果初步支持DSI工作室的纤维重建技术在本科医学教育中的应用。

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Enhancing Neuroanatomy Teaching with DSI Studio's Fiber Reconstruction Technology.

Background: DSI Studio is an advanced imaging software specifically designed for the analysis of diffusion magnetic resonance imaging (dMRI). Its key features, which include fiber reconstruction, fiber tracking, and 3D visualization, have established its significant role in neuroscience research.

Objective: A solid understanding of spatial relationships is crucial for students studying anatomy. However, there has been limited research in Chinese medical education regarding the integration of 3D imaging technology into anatomical instruction. To address this gap, we conducted an innovative study utilizing DSI Studio to enhance neuroanatomy education.

Methods: An innovative study was conducted utilizing DSI Studio for fiber reconstruction and 3D visualization in neuroanatomy workshops. A total of 38 students participated in hands-on sessions, with 13 completing pre-training surveys and 19 completing post-training surveys. The students' understanding of neuroanatomy prior to training, as well as their performance and experiences during the neuroanatomy learning process, were systematically recorded. Additionally, the effectiveness of DSI Studio software in enhancing neuroanatomy learning was assessed in conjunction with the reconstruction capabilities of the software.

Results: The application of DSI Studio significantly improved students' visualization of neural structures, surpassing traditional teaching limitations. It enhanced their understanding of three-dimensional brain anatomy, boosted enthusiasm, and improved learning efficiency. The workshops supported the students' progression through the knowledge acquisition phases-understanding, mastery, and application.

Conclusion: DSI Studio demonstrates potential as an educational tool in neuroanatomy, offering a supportive and flexible learning environment conducive to achieving learning objectives. Our findings preliminarily support the adoption of DSI Studio's fiber reconstruction technology in undergraduate medical education.

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