MR multitasking‐based dynamic imaging for cerebrovascular evaluation ( MT‐DICE ): Simultaneous quantification of permeability and leakage‐insensitive perfusion by dynamic T1/T2 mapping

PurposeTo develop an MR multitasking‐based dynamic imaging for cerebrovascular evaluation (MT‐DICE) technique for simultaneous quantification of permeability and leakage‐insensitive perfusion with a single‐dose contrast injection.MethodsMT‐DICE builds on a saturation‐recovery prepared multi‐echo fas...

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Published inMagnetic resonance in medicine Vol. 89; no. 1; pp. 161 - 176
Main Authors Hu, Zhehao, Christodoulou, Anthony G., Wang, Nan, Xie, Yibin, Shiroishi, Mark S., Yang, Wensha, Zada, Gabriel, Chow, Frances E., Margol, Ashley S., Tamrazi, Benita, Chang, Eric L., Li, Debiao, Fan, Zhaoyang
Format Journal Article
LanguageEnglish
Published Hoboken Wiley Subscription Services, Inc 01.01.2023
John Wiley and Sons Inc
Subjects
Brain
Brain cancer
Brain tumors
Contrast agents
Correlation coefficients
Evaluation
Leakage
Magnetic resonance imaging
Mapping
Medical imaging
Multitasking
Neuroimaging
Parameters
Perfusion
Permeability
Recovery time
Saturation
Substantia alba
Substantia grisea
s—Imaging Methodology
Online AccessGet full text
ISSN0740-3194
1522-2594
DOI10.1002/mrm.29431

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Abstract PurposeTo develop an MR multitasking‐based dynamic imaging for cerebrovascular evaluation (MT‐DICE) technique for simultaneous quantification of permeability and leakage‐insensitive perfusion with a single‐dose contrast injection.MethodsMT‐DICE builds on a saturation‐recovery prepared multi‐echo fast low‐angle shot sequence. The k‐space is randomly sampled for 7.6 min, with single‐dose contrast agent injected 1.5 min into the scan. MR multitasking is used to model the data into six dimensions, including three spatial dimensions for whole‐brain coverage, a saturation‐recovery time dimension, and a TE dimension for dynamic T1$$ {\mathrm{T}}_1 $$ and T2*$$ {\mathrm{T}}_2^{\ast } $$ quantification, respectively, and a contrast dynamics dimension for capturing contrast kinetics. The derived pixel‐wise T1/T2*$$ {\mathrm{T}}_1/{\mathrm{T}}_2^{\ast } $$ time series are converted into contrast concentration‐time curves for calculation of kinetic metrics. The technique was assessed for its agreement with reference methods in T1$$ {\mathrm{T}}_1 $$ and T2*$$ {\mathrm{T}}_2^{\ast } $$ measurements in eight healthy subjects and, in three of them, inter‐session repeatability of permeability and leakage‐insensitive perfusion parameters. Its feasibility was also demonstrated in four patients with brain tumors.ResultsMT‐DICE T1/T2*$$ {\mathrm{T}}_1/{\mathrm{T}}_2^{\ast } $$ values of normal gray matter and white matter were in excellent agreement with reference values (intraclass correlation coefficients = 0.860/0.962 for gray matter and 0.925/0.975 for white matter ). Both permeability and perfusion parameters demonstrated good to excellent intersession agreement with the lowest intraclass correlation coefficients at 0.694. Contrast kinetic parameters in all healthy subjects and patients were within the literature range.ConclusionBased on dynamic T1/T2*$$ {\mathrm{T}}_1/{\mathrm{T}}_2^{\ast } $$ mapping, MT‐DICE allows for simultaneous quantification of permeability and leakage‐insensitive perfusion metrics with a single‐dose contrast injection.
AbstractList PurposeTo develop an MR multitasking‐based dynamic imaging for cerebrovascular evaluation (MT‐DICE) technique for simultaneous quantification of permeability and leakage‐insensitive perfusion with a single‐dose contrast injection.MethodsMT‐DICE builds on a saturation‐recovery prepared multi‐echo fast low‐angle shot sequence. The k‐space is randomly sampled for 7.6 min, with single‐dose contrast agent injected 1.5 min into the scan. MR multitasking is used to model the data into six dimensions, including three spatial dimensions for whole‐brain coverage, a saturation‐recovery time dimension, and a TE dimension for dynamic T1$$ {\mathrm{T}}_1 $$ and T2*$$ {\mathrm{T}}_2^{\ast } $$ quantification, respectively, and a contrast dynamics dimension for capturing contrast kinetics. The derived pixel‐wise T1/T2*$$ {\mathrm{T}}_1/{\mathrm{T}}_2^{\ast } $$ time series are converted into contrast concentration‐time curves for calculation of kinetic metrics. The technique was assessed for its agreement with reference methods in T1$$ {\mathrm{T}}_1 $$ and T2*$$ {\mathrm{T}}_2^{\ast } $$ measurements in eight healthy subjects and, in three of them, inter‐session repeatability of permeability and leakage‐insensitive perfusion parameters. Its feasibility was also demonstrated in four patients with brain tumors.ResultsMT‐DICE T1/T2*$$ {\mathrm{T}}_1/{\mathrm{T}}_2^{\ast } $$ values of normal gray matter and white matter were in excellent agreement with reference values (intraclass correlation coefficients = 0.860/0.962 for gray matter and 0.925/0.975 for white matter ). Both permeability and perfusion parameters demonstrated good to excellent intersession agreement with the lowest intraclass correlation coefficients at 0.694. Contrast kinetic parameters in all healthy subjects and patients were within the literature range.ConclusionBased on dynamic T1/T2*$$ {\mathrm{T}}_1/{\mathrm{T}}_2^{\ast } $$ mapping, MT‐DICE allows for simultaneous quantification of permeability and leakage‐insensitive perfusion metrics with a single‐dose contrast injection.
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Author Zada, Gabriel
Wang, Nan
Xie, Yibin
Christodoulou, Anthony G.
Shiroishi, Mark S.
Hu, Zhehao
Li, Debiao
Fan, Zhaoyang
Chang, Eric L.
Chow, Frances E.
Yang, Wensha
Margol, Ashley S.
Tamrazi, Benita
AuthorAffiliation 2 Biomedical Imaging Research Institute Cedars‐Sinai Medical Center Los Angeles California USA
1 Department of Radiology University of Southern California Los Angeles California USA
6 Department of Neuro‐oncology Children's Hospital Los Angeles Los Angeles California USA
8 Department of Biomedical Engineering University of Southern California Los Angeles California USA
3 Department of Bioengineering University of California Los Angeles California USA
4 Department of Radiation Oncology University of Southern California Los Angeles California USA
7 Department of Radiology Children's Hospital Los Angeles Los Angeles California USA
5 Department of Neurosurgery University of Southern California Los Angeles California USA
AuthorAffiliation_xml – name: 7 Department of Radiology Children's Hospital Los Angeles Los Angeles California USA
– name: 1 Department of Radiology University of Southern California Los Angeles California USA
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– name: 3 Department of Bioengineering University of California Los Angeles California USA
– name: 6 Department of Neuro‐oncology Children's Hospital Los Angeles Los Angeles California USA
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Snippet Click here for author‐reader discussions
PurposeTo develop an MR multitasking‐based dynamic imaging for cerebrovascular evaluation (MT‐DICE) technique for simultaneous quantification of permeability...
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StartPage 161
SubjectTerms Brain
Brain cancer
Brain tumors
Contrast agents
Correlation coefficients
Evaluation
Leakage
Magnetic resonance imaging
Mapping
Medical imaging
Multitasking
Neuroimaging
Parameters
Perfusion
Permeability
Recovery time
Saturation
Substantia alba
Substantia grisea
s—Imaging Methodology
Title MR multitasking‐based dynamic imaging for cerebrovascular evaluation ( MT‐DICE ): Simultaneous quantification of permeability and leakage‐insensitive perfusion by dynamic T1/T2 mapping
URI https://www.proquest.com/docview/2729698161
https://pubmed.ncbi.nlm.nih.gov/PMC9826278
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