date: 2014-12-26T08:35:36Z
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pdf:docinfo:title: High-resolution diffusion kurtosis imaging at 3T enabled by advanced post-processing
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subject: Diffusion Kurtosis Imaging (DKI) is more sensitive to microstructural differences and can be related to more specific micro-scale metrics (e.g., intra-axonal volume fraction) than diffusion tensor imaging (DTI), offering exceptional potential for clinical diagnosis and research into the white and gray matter.
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dc:title: High-resolution diffusion kurtosis imaging at 3T enabled by advanced post-processing
modified: 2014-12-26T08:35:36Z
cp:subject: Diffusion Kurtosis Imaging (DKI) is more sensitive to microstructural differences and can be related to more specific micro-scale metrics (e.g., intra-axonal volume fraction) than diffusion tensor imaging (DTI), offering exceptional potential for clinical diagnosis and research into the white and gray matter.
pdf:docinfo:subject: Diffusion Kurtosis Imaging (DKI) is more sensitive to microstructural differences and can be related to more specific micro-scale metrics (e.g., intra-axonal volume fraction) than diffusion tensor imaging (DTI), offering exceptional potential for clinical diagnosis and research into the white and gray matter.
pdf:docinfo:creator: Siawoosh Mohammadi
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meta:creation-date: 2014-12-26T06:05:00Z
created: 2014-12-26T06:05:00Z
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Creation-Date: 2014-12-26T06:05:00Z
Author: Siawoosh Mohammadi
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dc:description: Diffusion Kurtosis Imaging (DKI) is more sensitive to microstructural differences and can be related to more specific micro-scale metrics (e.g., intra-axonal volume fraction) than diffusion tensor imaging (DTI), offering exceptional potential for clinical diagnosis and research into the white and gray matter.
Keywords: DTI, DKI, diffusion kurtosis, gray matter, high-resolution, multi-shell dMRI, eddy current and motion artifacts, adaptive smoothing
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dc:creator: Siawoosh Mohammadi
description: Diffusion Kurtosis Imaging (DKI) is more sensitive to microstructural differences and can be related to more specific micro-scale metrics (e.g., intra-axonal volume fraction) than diffusion tensor imaging (DTI), offering exceptional potential for clinical diagnosis and research into the white and gray matter.
dcterms:created: 2014-12-26T06:05:00Z
Last-Modified: 2014-12-26T08:35:36Z
dcterms:modified: 2014-12-26T08:35:36Z
title: High-resolution diffusion kurtosis imaging at 3T enabled by advanced post-processing
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pdf:docinfo:keywords: DTI, DKI, diffusion kurtosis, gray matter, high-resolution, multi-shell dMRI, eddy current and motion artifacts, adaptive smoothing
pdf:docinfo:modified: 2014-12-26T08:35:36Z
meta:save-date: 2014-12-26T08:35:36Z
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creator: Siawoosh Mohammadi
dc:subject: DTI, DKI, diffusion kurtosis, gray matter, high-resolution, multi-shell dMRI, eddy current and motion artifacts, adaptive smoothing
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meta:keyword: DTI, DKI, diffusion kurtosis, gray matter, high-resolution, multi-shell dMRI, eddy current and motion artifacts, adaptive smoothing
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