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Dielectric Properties of 3D-Printed Materials for Anatomy Specific 3D-Printed MRI coils

机译：用于解剖学特定3D打印MRI线圈的3D打印材料的介电性能

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摘要

Additive manufacturing provides a low-cost and rapid means to translate 3D designs into the construction of a prototype. For MRI, this type of manufacturing can be used to construct various components including the structure of RF coils. In this paper, we characterize the material properties (dielectric constant and loss tangent) of several common 3D-printed polymers in the MRI frequency range of 63 MHz to 300 MHz (for MRI magnetic field strengths of 1.5 T – 7 T), and utilize these material properties in full-wave electromagnetic simulations to design and construct a very low-cost subject/anatomy-specific 3D-printed receive-only RF coil that fits close to the body. We show that the anatomy-specific coil exhibits higher signal-to-noise ratio compared to a conventional flat surface coil.

机译：增材制造提供了一种低成本，快速的方法，可以将3D设计转换为原型的构造。对于MRI，这种类型的制造可用于构造各种组件，包括RF线圈的结构。在本文中，我们表征了几种常见的3D打印聚合物的材料特性（介电常数和损耗角正切），其MRI频率范围为63 MHz至300 MHz（适用于1.5 T – 7 T的MRI磁场强度），并利用全波电磁仿真中的这些材料特性可以设计和构建非常便宜的，适合人体的贴近人体/人体的3D打印仅接收射频线圈。我们显示，与传统的平面线圈相比，特定解剖结构的线圈展现出更高的信噪比。

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期刊名称 other
作者
Bahareh Behzadnezhad; Bruce D Collick; Nader Behdad; Alan B McMillan;
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作者单位

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年(卷),期 -1(289),-1
年度 -1
页码 113–121
总页数 25
原文格式 PDF
正文语种
中图分类
关键词
3D printing anatomy specific coils radio-frequency (RF) coils dielectric properties measurement magnetic resonance imaging (MRI) electromagnetics parallel RLC resonator;

机译：3D打印;特定解剖结构的线圈;射频（RF）线圈;介电特性测量;磁共振成像（MRI）;电磁学;并联RLC谐振器;

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专利

1. Dielectric properties of 3D-printed materials for anatomy specific 3D-printed MRI coils [J] . Behzadnezhad Bahareh, Collick Bruce D., Behdad Nader, Journal of magnetic resonance . 2018,第期

机译：用于解剖学特定3D印刷MRI线圈的3D印刷材料的介电性能
2. A system using patient-specific 3D-printed molds to spatially align in vivo MRI with ex vivo MRI and whole-mount histopathology for prostate cancer research [J] . Wu Holden H., Priester Alan, Khoshnoodi Pooria, Journal of magnetic resonance imaging: JMRI . 2019,第1期

机译：一种使用患者特异性3D印刷模具的系统在体内MRI与前肢MRI和全坐癌组织病理到前列腺癌研究
3. Toward Automated Manufacturing of RF Coils: Microstrip Resonators for 4.7T Using 3D-Printed Dielectrics and Conductors [J] . Javidmehr Saeed, Maunder Adam M., Daneshmand Mojgan, Applied Magnetic Resonance . 2019,第5期

机译：朝着RF线圈的自动制造：使用3D印刷电介质和导体4.7T的微带谐振器
4. MRI Based Brain-Specific 3D-Printed Model Aligned to Stereotactic Space for Registering Histology to MRI [C] . Sethu K. Boopathy Jegathambal, Kelvin Mok, David A. Rudko, Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2018

机译：基于MRI的脑立体3D打印模型与立体定向空间对齐，用于向MRI注册组织学
5. Steering Electromagnetic Fields in MRI: Investigating Radiofrequency Field Interactions with Endogenous and External Dielectric Materials for Improved Coil Performance at High Field [D] . Vaidya, Manushka. 2017

机译：MRI中的转向电磁场：研究与内生和外介电材料的射频场相互作用，以改善高场时的线圈性能
6. The Mechanical and Physical Properties of 3D-Printed Materials Composed of ABS-ZnO Nanocomposites and ABS-ZnO Microcomposites [O] . Nectarios Vidakis, Markos Petousis, Athena Maniadi, 2020

机译：由ABS-ZnO纳米复合材料和ABS-ZnO微复合材料组成的3D打印材料的机械和物理性能
7. Quality Control in 3D Printing: Accuracy Analysis of 3D-Printed Models of Patient-Specific Anatomy [O] . Bernhard Dorweiler, Pia Elisabeth Baqué, Rayan Chaban, 2021

机译：3D打印质量控制：患者特异性解剖学3D印刷模型的准确性分析

Dielectric Properties of 3D-Printed Materials for Anatomy Specific 3D-Printed MRI coils

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