磁颗粒成像中快速恢复LSI性能的分析方法

IF 3.3 Q2 ENGINEERING, BIOMEDICAL
H. Jabbari, Jungwon Yoon
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引用次数: 6

摘要

磁颗粒成像(MPI)的线性和平移不变性(LSI)特性是定量医学诊断应用的重要特性。MPI图像方程已经从理论上证明了LSI的存在;然而,在实践中,必要的滤波动作去除了第一谐波信息,这破坏了LSI的特性。这种丢失的信息在x空间重建方法中可以是常数。现有的恢复算法是基于多个部分视场(pfov)的信号匹配,需要大量的处理时间和成像开始时的先验信息。本文提出了一种快速解析恢复算法,用于恢复x空间MPI图像的LSI特性,该图像可表示为磁性材料离散浓度的图像。该方法利用一维(1D) x空间成像核以及图像和丢失图像方程的性质。该方法不需要pfov的重叠,其复杂性仅取决于一个小尺寸的线性方程组;因此,可以减少处理时间。此外,该算法只需要一次成像即可获得的先验信息。在不同颗粒分布的情况下,进行了多次模拟,一维和二维成像结果验证了该方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Analytical Approach for Fast Recovery of the LSI Properties in Magnetic Particle Imaging
Linearity and shift invariance (LSI) characteristics of magnetic particle imaging (MPI) are important properties for quantitative medical diagnosis applications. The MPI image equations have been theoretically shown to exhibit LSI; however, in practice, the necessary filtering action removes the first harmonic information, which destroys the LSI characteristics. This lost information can be constant in the x-space reconstruction method. Available recovery algorithms, which are based on signal matching of multiple partial field of views (pFOVs), require much processing time and a priori information at the start of imaging. In this paper, a fast analytical recovery algorithm is proposed to restore the LSI properties of the x-space MPI images, representable as an image of discrete concentrations of magnetic material. The method utilizes the one-dimensional (1D) x-space imaging kernel and properties of the image and lost image equations. The approach does not require overlapping of pFOVs, and its complexity depends only on a small-sized system of linear equations; therefore, it can reduce the processing time. Moreover, the algorithm only needs a priori information which can be obtained at one imaging process. Considering different particle distributions, several simulations are conducted, and results of 1D and 2D imaging demonstrate the effectiveness of the proposed approach.
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来源期刊
CiteScore
12.00
自引率
0.00%
发文量
11
审稿时长
20 weeks
期刊介绍: The International Journal of Biomedical Imaging is managed by a board of editors comprising internationally renowned active researchers. The journal is freely accessible online and also offered for purchase in print format. It employs a web-based review system to ensure swift turnaround times while maintaining high standards. In addition to regular issues, special issues are organized by guest editors. The subject areas covered include (but are not limited to): Digital radiography and tomosynthesis X-ray computed tomography (CT) Magnetic resonance imaging (MRI) Single photon emission computed tomography (SPECT) Positron emission tomography (PET) Ultrasound imaging Diffuse optical tomography, coherence, fluorescence, bioluminescence tomography, impedance tomography Neutron imaging for biomedical applications Magnetic and optical spectroscopy, and optical biopsy Optical, electron, scanning tunneling/atomic force microscopy Small animal imaging Functional, cellular, and molecular imaging Imaging assays for screening and molecular analysis Microarray image analysis and bioinformatics Emerging biomedical imaging techniques Imaging modality fusion Biomedical imaging instrumentation Biomedical image processing, pattern recognition, and analysis Biomedical image visualization, compression, transmission, and storage Imaging and modeling related to systems biology and systems biomedicine Applied mathematics, applied physics, and chemistry related to biomedical imaging Grid-enabling technology for biomedical imaging and informatics
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