Diffusion MRI free water is a sensitive marker of age-related changes in the cingulum

Edde, Manon; Theaud, Guillaume; Rheault, François; Dilharreguy, Bixente; Helmer, Catherine; Dartigues, Jean‐François; Amieva, Hélène; Allard, Michèle; Descoteaux, Maxime; Catheline, Gwénaëlle

doi:10.1101/867606

Cited by 2 publications

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References 112 publications

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“…Despite this, recent studies that use single-shell FWE-DTI are still common. [31][32][33][34][35][36] In this study, state-of-the-art FWE-DTI fitting-procedures RGD algorithms are revisited. Our main objective is to quantify the specificity of FWE-DTI estimates when extracted from single-shell and multishell dwMRI acquisitions.…”

Section: Introductionmentioning

confidence: 99%

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Free‐water DTI estimates from single b‐value data might seem plausible but must be interpreted with care

Golub

Henriques

Nunes

2020

Magnetic Resonance in Med

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Free-water elimination DTI (FWE-DTI) has been used widely to distinguish increases of free-water partial-volume effects from tissue's diffusion in healthy aging and degenerative diseases. Because the FWE-DTI fitting is only wellposed for multishell acquisitions, a regularized gradient descent (RGD) method was proposed to enable application to single-shell data, more common in the clinic. However, the validity of the RGD method has been poorly assessed. This study aims to quantify the specificity of FWE-DTI procedures on single-shell and multishell data. Methods: Different FWE-DTI fitting procedures were tested on an open-source in vivo diffusion data set and single-shell and multishell synthetic signals, including the RGD and standard nonlinear least-squares methods. Single-voxel simulations were carried out to compare initialization approaches. A multivoxel phantom simulation was performed to evaluate the effect of spatial regularization when comparing between methods. To test the algorithms' specificity, phantoms with two different types of lesions were simulated: with altered mean diffusivity or with modified free water. Results: Plausible parameter maps were obtained with RGD from single-shell in vivo data. The plausibility of these maps was shown to be determined by the initialization. Tests with simulated lesions inserted into the in vivo data revealed that the RGD approach cannot distinguish free water from tissue mean-diffusivity alterations, contrarily to the nonlinear least-squares algorithm. Conclusion: The RGD FWE-DTI method has limited specificity; thus, its results from single-shell data should be carefully interpreted. When possible, multishell acquisitions and the nonlinear least-squares approach should be preferred instead.

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Section: Introductionmentioning

confidence: 99%

“…Moreover, no single‐shell FWE‐DTI procedure is currently available in an open‐source software, hampering independent and objective validation. Despite this, recent studies that use single‐shell FWE‐DTI are still common 31‐36 …”

Section: Introductionmentioning

confidence: 99%