通过使用磁性填充聚合物的增材制造使射频线圈不可见。

IF 3 3区医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Magnetic Resonance in Medicine Pub Date : 2025-10-05 DOI:10.1002/mrm.70115

Markus Weiger, Johan Overweg, Amelie Viol, Lauro Singenberger, Thomas Schmid, Emily Louise Baadsvik, Klaas Paul Pruessmann

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引用次数: 0

摘要

目的：Short-T2 MRI不仅对目标组织敏感，而且对射频线圈中材料的信号敏感，这可能导致图像背景伪影。目前解决这个问题的方法要么降低成像性能，要么对线圈设计施加限制。目前工作的目标是使射频线圈不可见而不存在这些缺点。方法：射频线圈外壳的无用信号的有效破坏是通过填充材料用于建设与磁性颗粒外壳实现的。这一概念通过使用由磁铁矿填充聚合物制成的定制细丝的增材制造来制造线圈成形器来证明。结果：通过使用由磁性填充聚合物制成的线圈成形器，有效地消除了射频线圈中的有害信号。通过这种方式，可以启用无背景短t2成像。结论：利用磁填充材料实现射频线圈的MR不可见，简化了线圈的设计和制造，无需改变MR序列，从而提高了T2s短组织的MRI性能。

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Making RF coils MR-invisible by additive manufacturing using magnetically filled polymer.

Purpose: Short-T₂ MRI is sensitive not only to targeted tissues but also to signals from materials in RF coils, which can lead to image background artifacts. Current solutions to this problem either compromise imaging performance or impose restrictions on coil design. The goal of the present work is to make RF coils MR-invisible without such drawbacks.

Methods: Effective spoiling of unwanted signals from the housing of RF coils is achieved by filling the material used to construct the housing with magnetic particles. This concept is demonstrated by creating coil formers through additive manufacturing with custom filaments made from magnetite-filled polymer.

Results: Unwanted signals from the RF coil are effectively eliminated by using coil formers made from magnetically filled polymer. In this fashion, background-free short-T₂ imaging is enabled.

Conclusion: Making RF coils MR-invisible by using magnetically filled materials simplifies coil design and manufacturing and renders the alteration of MR sequences unnecessary, thereby improving the performance of MRI of tissues with short T₂s.

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来源期刊

Magnetic Resonance in Medicine 医学-核医学

CiteScore

6.70

自引率

24.20%

发文量

376

审稿时长

2-4 weeks

期刊介绍： Magnetic Resonance in Medicine (Magn Reson Med) is an international journal devoted to the publication of original investigations concerned with all aspects of the development and use of nuclear magnetic resonance and electron paramagnetic resonance techniques for medical applications. Reports of original investigations in the areas of mathematics, computing, engineering, physics, biophysics, chemistry, biochemistry, and physiology directly relevant to magnetic resonance will be accepted, as well as methodology-oriented clinical studies.