Low-Cost and Detunable Wireless Resonator Glasses for Enhanced Eye MRI with Concurrent High-Quality Whole-Brain MRI.

ArXiv Pub Date : 2025-09-10

Ming Lu, Xiaoyue Yang, Jason Moore, Pingping Li, Adam W Anderson, John C Gore, Seth A Smith, Xinqiang Yan

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Abstract

Purpose: To develop and evaluate a wearable wireless resonator glasses design that enhances eye MRI signal-to-noise ratio (SNR) without compromising whole-brain image quality at 7 T.

Methods: The device integrates two detunable LC loop resonators into a lightweight, 3D-printed frame positioned near the eyes. The resonators passively couple to a standard 2Tx/32Rx head coil without hardware modifications. Bench tests assessed tuning, isolation, and detuning performance. B ₁ ⁺ maps were measured in a head/shoulder phantom, and SNR maps were obtained in both phantom and in vivo experiments.

Results: Bench measurements confirmed accurate tuning, strong inter-element isolation, and effective passive detuning. Phantom B ₁ ⁺ mapping showed negligible differences between configurations with and without the resonators. Phantom and in vivo imaging demonstrated up to a ~3-fold SNR gain in the eye region, with no measurable SNR loss in the brain.

Conclusion: The wireless resonator glasses provide a low-cost, easy-to-use solution that improves ocular SNR while preserving whole-brain image quality, enabling both dedicated eye MRI and simultaneous eye-brain imaging at ultrahigh field.

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低成本和可拆卸的无线共振眼镜用于增强眼部MRI和高质量全脑MRI。

目的：开发和评估一种可穿戴无线谐振器眼镜设计，该眼镜可以提高眼部MRI信噪比（SNR），同时不影响7 t时的全脑图像质量。方法：该设备将两个可拆卸的LC环路谐振器集成到一个位于眼睛附近的轻质3d打印框架中。谐振器被动耦合到标准的2Tx/32Rx头线圈，无需硬件修改。台架测试评估调优、隔离和失谐性能。在头/肩假体中测量B1$^+$图，并在假体和体内实验中获得信噪比图。结果：台架测量证实了精确的调谐，强元素间隔离，有效的被动失谐。幻影B1$^+$映射显示有谐振器和没有谐振器的配置之间的差异可以忽略不计。幻影和活体成像显示，眼睛区域的信噪比增加了约3倍，而大脑区域的信噪比没有可测量的损失。结论：无线谐振镜提供了一种低成本，易于使用的解决方案，在保持全脑图像质量的同时提高了眼部信噪比，实现了专用的眼部MRI和超高场眼脑同步成像。

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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