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用于灌注参数定量的去卷积算法的数学框架

Mathematical Framework of Deconvolution Algorithms for Quantification of Perfusion Parameters.

作者信息

Yang Fanpei, Bal Sukhdeep Singh Bal, Sung Yueh-Feng, Peng Giia-Sheun

机构信息

Department of National Tsing Hua University Hsinchu, Taiwan; University of Liverpool.

Department of Mathematical sciences, University of Liverpool, Liverpool, UK. IPHD, National Tsing Hua University, Taiwan.

出版信息

Acta Neurol Taiwan. 2020 Sep;29(3):79-85.

PMID:32996115
Abstract

PURPOSE

MR perfusion weighted imaging (PWI) has been used as sensitive indicator of tissue at risk for infarction. Quantitative perfusion parameters such as cerebral blood flow (CBF), mean transit time (MTT) and cerebral blood volume (CBV) can be obtained from post processing of PWI data using standard singular value decomposition algorithm (SVD). Assumption regarding absence of arterial - tissue delay (ATD) used in SVD algorithm results in underestimation of perfusion parameters. To estimate accurate values for perfusion parameters it is important to understand the mathematical framework behind SVD and improved SVD algorithms (bSVD and rSVD).

METHOD

This study explains the mathematical framework of SVD and improved SVD algorithms and uses computational techniques that use bSVD algorithm to obtain perfusion parameters maps of CBF, CBV and MTT for acute stroke patient.

RESULT

Computational techniques based on mathematical deconvolution algorithms are used to post process CBV, CBF and MTT maps where decrease in CBF and CBV were seen in left hemisphere.

CONCLUSION

The bSVD algorithm is found to be sensitive to ATD and provides more accurate estimates of perfusion parameters than the SVD algorithm, however CBF estimates from bSVD and rSVD still remain influenced by other artifacts Keywords: PWI = perfusion weighted imaging, CBF= cerebral blood flow, MTT = mean transit time, CBV= cerebral blood volume, SVD = singular value decomposition algorithm.

摘要

目的

磁共振灌注加权成像(PWI)已被用作梗死风险组织的敏感指标。使用标准奇异值分解算法(SVD)对PWI数据进行后处理可获得诸如脑血流量(CBF)、平均通过时间(MTT)和脑血容量(CBV)等定量灌注参数。SVD算法中关于不存在动脉-组织延迟(ATD)的假设导致灌注参数被低估。为了估计灌注参数的准确值,理解SVD背后的数学框架以及改进的SVD算法(bSVD和rSVD)很重要。

方法

本研究解释了SVD和改进的SVD算法的数学框架,并使用计算技术,该技术使用bSVD算法来获取急性中风患者的CBF、CBV和MTT灌注参数图。

结果

基于数学反卷积算法的计算技术用于对CBV、CBF和MTT图进行后处理,其中左半球的CBF和CBV降低。

结论

发现bSVD算法对ATD敏感,并且比SVD算法能提供更准确的灌注参数估计,然而来自bSVD和rSVD的CBF估计仍受其他伪影的影响。关键词:PWI = 灌注加权成像,CBF = 脑血流量,MTT = 平均通过时间,CBV = 脑血容量,SVD = 奇异值分解算法

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