一种用于评估烧伤深度的单边 MRI 探头的新颖设计。

The Novel Design of a Single-Sided MRI Probe for Assessing Burn Depth.

机构信息

State Key Laboratory of Power Transmission Equipment and System Security and New Technology, School of Electrical Engineering, Chongqing University, Chongqing 400044, China.

出版信息

Sensors (Basel). 2017 Mar 6;17(3):526. doi: 10.3390/s17030526.

DOI:10.3390/s17030526

PMID:28272320

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5375812/

Abstract

Burn depth assessment in clinics is still inaccurate because of the lack of feasible and practical testing devices and methods. Therefore, this process often depends on subjective judgment of burn surgeons. In this study, a new unilateral magnetic resonance imaging (UMRI) sensor equipped with a 2D gradient coil system was established, and we attempted to assess burns using unilateral nuclear magnetic resonance devices. A reduced Halbach magnet was utilized to generate a magnetic field that was relatively homogeneous on a target plane with a suitable field of view for 2D spatial localization. A uniplanar gradient coil system was designed by utilizing the mainstream target field method, and a uniplanar RF (radio frequency) coil was designed by using a timeharmonic inverse method for the UMRI sensor. A 2D image of the cross sections of a simple burn model was obtained by a fast 2D pure-phase encoding imaging method. The design details of the novel single-sided MRI probe and imaging tests are also presented.

摘要

临床上的烧伤深度评估仍然不够准确，因为缺乏可行且实用的测试设备和方法。因此，这个过程通常依赖于烧伤外科医生的主观判断。在这项研究中，我们建立了一种新型的单侧磁共振成像（UMRI）传感器，并配备了二维梯度线圈系统，尝试使用单侧磁共振设备来评估烧伤。我们利用一个简化的 Halbach 磁铁来产生一个在目标平面上相对均匀的磁场，同时具有合适的视场用于二维空间定位。我们通过利用主流目标场方法设计了一个单平面梯度线圈系统，并通过时谐逆方法为 UMRI 传感器设计了一个单平面射频（RF）线圈。通过快速二维纯相位编码成像方法，我们获得了简单烧伤模型的横截面二维图像。本文还介绍了新型单侧边 MRI 探头和成像测试的设计细节。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fbb9/5375812/be4ac613512a/sensors-17-00526-g001.jpg

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一种用于评估烧伤深度的单边 MRI 探头的新颖设计。

The Novel Design of a Single-Sided MRI Probe for Assessing Burn Depth.

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