2013
DOI: 10.1002/nbm.2978
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Multiple‐echo diffusion tensor acquisition technique (MEDITATE) on a 3T clinical scanner

Abstract: This paper describes the concepts and implementation of an MRI method, Multiple Echo Diffusion Tensor Acquisition Technique (MEDITATE), which is capable of acquiring apparent diffusion tensor maps in two scans on a 3T clinical scanner. In each MEDITATE scan, a set of RF-pulses generates multiple echoes whose amplitudes are diffusion-weighted in both magnitude and direction by a pattern of diffusion gradients. As a result, two scans acquired with different diffusion weighting strengths suffice for accurate esti… Show more

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Cited by 11 publications
(24 citation statements)
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“…Prior work has explored the diffusion-weighting pattern’s capturing of dynamic diffusion tensor behavior [24,27]; the current study focused upon spatially-resolved dynamic imaging. In this implementation, each of the 11 echoes in each MEDITI echo train was measured with a 5-petal Single TrAjectory radial (STAR) k-space acquisition [30].…”
Section: Methodsmentioning
confidence: 99%
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“…Prior work has explored the diffusion-weighting pattern’s capturing of dynamic diffusion tensor behavior [24,27]; the current study focused upon spatially-resolved dynamic imaging. In this implementation, each of the 11 echoes in each MEDITI echo train was measured with a 5-petal Single TrAjectory radial (STAR) k-space acquisition [30].…”
Section: Methodsmentioning
confidence: 99%
“…Recently, a new approach for compressing the required directional encodings has been demonstrated [24], titled “multiple echo diffusion tensor acquisition technique (MEDITATE)” and based on prior work in preclinical scanners [25,26], A single-voxel variant (SV-MEDITATE) has been applied to measure dynamic anisotropic diffusion exercise response in normal calf muscle [27] and thigh muscles in controls and dermatomyositis patients [28]. However, to produce a spatially-resolved variant of MEDITATE, k-space acquisition and reconstruction must be chosen to (a) include self-navigation of phase errors and (b) achieve sufficient temporal resolution to capture post-exercise recovery.…”
Section: Introductionmentioning
confidence: 99%
“…As a result, two scans acquired with different diffusion‐weighting strengths suffice to isolate the diffusion weighting from T 1 , T 2 and proton‐density effects and to estimate DTI parameters accurately. As described in previous work , the full b matrix is calculated from the difference of b matrices in the two scans, including both the diffusion gradients and the imaging gradients used for spatial localization. The diffusion gradients were optimized to minimize the condition number , a scalar metric quantifying the diffusion sampling quality; an optimal condition number of 4.42 was found.…”
Section: Methodsmentioning
confidence: 99%
“…Input diffusion parameters D ( t ) were calculated according to a short‐time t expansion using male human calf‐muscle parameters (fiber size 61 μ m, membrane permeability 20 μ m/s, D 0 1.52 μ m 2 /ms; these parameter choices induce an FA of 0.4 at the diffusion time of t = 1 s) ). For the simulation, echo amplitudes were generated and fitted for each time point using the sequence parameters and signal equations . These simulations were repeated for different SNR levels with Rician noise added to the echo amplitudes, using 400 samples for each time point at each SNR level.…”
Section: Methodsmentioning
confidence: 99%
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