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  3. A multi-scale sub-voxel perfusion model to estimate diffusive capillary wall conductivity in multiple sclerosis lesions from perfusion MRI data.
 

A multi-scale sub-voxel perfusion model to estimate diffusive capillary wall conductivity in multiple sclerosis lesions from perfusion MRI data.

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BORIS DOI
10.7892/boris.137837
Date of Publication
February 2020
Publication Type
Article
Division/Institute

ARTORG Center - Cardi...

Universitätsinstitut ...

Contributor
Koch, Timo
Flemisch, Bernd
Helmig, Rainer
Wiest, Roland Gerhard Rudi
Universitätsinstitut für Diagnostische und Interventionelle Neuroradiologie
Obrist, Dominikorcid-logo
ARTORG Center - Cardiovascular Engineering (CVE)
Subject(s)

600 - Technology::610...

Series
International Journal for Numerical Methods in Biomedical Engineering
ISSN or ISBN (if monograph)
2040-7947
Publisher
Wiley
Language
English
Publisher DOI
10.1002/cnm.3298
PubMed ID
31883316
Uncontrolled Keywords

NMR signal brain tiss...

Description
We propose a new mathematical model to learn capillary leakage coefficients from dynamic susceptibility contrast MRI data. To this end, we derive an embedded mixed-dimension flow and transport model for brain tissue perfusion on a sub-voxel scale. This model is used to obtain the contrast agent concentration distribution in a single MRI voxel during a perfusion MRI sequence. We further present a magnetic resonance signal model for the considered sequence including a model for local susceptibility effects. This allows modeling MR signal-time curves that can be compared to clinical MRI data. The proposed model can be used as a forward model in the inverse modeling problem of inferring model parameters such as the diffusive capillary wall conductivity. Acute multiple sclerosis lesions are associated with a breach in the integrity of the blood brain barrier. Applying the model to perfusion MR data of a patient with acute multiple sclerosis lesions, we conclude that diffusive capillary wall conductivity is a good indicator for characterizing activity of lesions, even if other patient-specific model parameters are not well-known. This article is protected by copyright. All rights reserved.
Handle
https://boris-portal.unibe.ch/handle/20.500.12422/185278
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FileFile TypeFormatSizeLicensePublisher/Copright statementContent
Koch_et_al-2020-International_Journal_for_Numerical_Methods_in_Biomedical_Engineering.pdftextAdobe PDF5.8 MBacceptedOpen
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