SlicerTMS: Real-Time Visualization of Transcranial Magnetic Stimulation for Mental Health Treatment.

ArXiv Pub Date : 2024-03-13

Loraine Franke, Tae Young Park, Jie Luo, Yogesh Rathi, Steve Pieper, Lipeng Ning, Daniel Haehn

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Abstract

We present a real-time visualization system for Transcranial Magnetic Stimulation (TMS), a non-invasive neuromodulation technique for treating various brain disorders and mental health diseases. Our solution targets the current challenges of slow and labor-intensive practices in treatment planning. Integrating Deep Learning (DL), our system rapidly predicts electric field (E-field) distributions in 0.2 seconds for precise and effective brain stimulation. The core advancement lies in our tool's real-time neuronavigation visualization capabilities, which support clinicians in making more informed decisions quickly and effectively. We assess our system's performance through three studies: First, a real-world use case scenario in a clinical setting, providing concrete feedback on applicability and usability in a practical environment. Second, a comparative analysis with another TMS tool focusing on computational efficiency across various hardware platforms. Lastly, we conducted an expert user study to measure usability and influence in optimizing TMS treatment planning. The system is openly available for community use and further development on GitHub: https://github.com/lorifranke/SlicerTMS.

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SlicerTMS：使用增强现实和深度学习实现经颅磁刺激的交互式实时可视化。

经颅磁刺激（TMS）是一种非侵入性神经调控方法，可有效治疗各种脑疾病。TMS治疗成功的关键因素之一是准确放置线圈，这可能具有挑战性，尤其是在针对个别患者的特定大脑区域时。计算大脑表面上的最佳线圈位置和由此产生的电场可能既昂贵又耗时。我们介绍了SlicerTMS，这是一种模拟方法，可以在医学成像平台3D Slicer中实时可视化TMS电磁场。我们的软件利用了3D深度神经网络，支持基于云的推理，并包括使用WebXR的增强现实可视化。我们评估了SlicerTMS在多种硬件配置下的性能，并将其与现有的TMS可视化应用SimNIBS进行了比较。我们所有的代码、数据和实验都是公开的：https://github.com/lorifranke/SlicerTMS.

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ArXiv

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