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具有磁感应的三维多激发磁声断层成像

Three-dimensional multiexcitation magnetoacoustic tomography with magnetic induction.

作者信息

Li Xu, Mariappan Leo, He Bin

出版信息

J Appl Phys. 2010 Dec 15;108(12):124702. doi: 10.1063/1.3526001. Epub 2010 Dec 30.

Abstract

Magnetoacoustic tomography with magnetic induction (MAT-MI) is a hybrid imaging modality proposed to image electrical conductivity contrast of biological tissue with high spatial resolution. This modality combines magnetic excitations with ultrasound detection through the Lorentz force based coupling mechanism. However, previous studies have shown that MAT-MI method with single type of magnetic excitation can only reconstruct the conductivity boundaries of a sample. In order to achieve more complete conductivity contrast reconstruction, we proposed a multiexcitation MAT-MI approach. In this approach, multiple magnetic excitations using different coil configurations are applied to the object sequentially and ultrasonic signals corresponding to each excitation are collected for conductivity image reconstruction. In this study, we validate the new multiexcitation MAT-MI method for three-dimensional (3D) conductivity imaging through both computer simulations and phantom experiments. 3D volume data are obtained by utilizing acoustic focusing and cylindrical scanning under each magnetic excitation. It is shown in our simulation and experiment results that with a common ultrasound probe that has limited bandwidth we are able to correctly reconstruct the 3D relative conductivity contrast of the imaging object. As compared to those conductivity boundary images generated by previous single-excitation MAT-MI, the new multiexcitation MAT-MI method provides more complete conductivity contrast reconstruction, and therefore, more valuable information in possible clinical and research applications.

摘要

磁感应磁声断层成像(MAT-MI)是一种混合成像方式,旨在以高空间分辨率对生物组织的电导率对比度进行成像。这种方式通过基于洛伦兹力的耦合机制将磁激发与超声检测相结合。然而,先前的研究表明,单一类型磁激发的MAT-MI方法只能重建样本的电导率边界。为了实现更完整的电导率对比度重建,我们提出了一种多激发MAT-MI方法。在这种方法中,使用不同线圈配置的多个磁激发依次施加到物体上,并收集与每个激发对应的超声信号用于电导率图像重建。在本研究中,我们通过计算机模拟和体模实验验证了用于三维(3D)电导率成像的新型多激发MAT-MI方法。在每次磁激发下利用声聚焦和圆柱扫描获得3D体积数据。我们的模拟和实验结果表明,使用带宽有限的普通超声探头,我们能够正确重建成像对象的3D相对电导率对比度。与先前单激发MAT-MI生成的电导率边界图像相比,新型多激发MAT-MI方法提供了更完整的电导率对比度重建,因此在可能的临床和研究应用中提供了更有价值的信息。

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本文引用的文献

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