Accelerating cine‐MR imaging in mouse hearts using compressed sensing

Wech, Tobias; Lemke, Angela; Medway, Debra J.; Stork, Lee-Anne; Lygate, Craig A.; Neubauer, Stefan; Köstler, Herbert; Schneider, Jürgen

doi:10.1002/jmri.22718

Cited by 39 publications

(39 citation statements)

References 25 publications

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“…This allows for a reduction in scan time, or higher spatial or temporal resolution of the image series. A reconstruction algorithm that recently has received a lot of attention is Compressed Sensing (CS) [16][17][18]. The undersampled data obtained by the self-gated radial acquisition schemes used in this work, fits very well with the CS requirements.…”

Section: Introductionmentioning

confidence: 68%

Accelerated self-gated UTE MRI of the murine heart

et al. 2014

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We introduce a new protocol to obtain radial Ultra-Short TE (UTE) MRI Cine of the beating mouse heart within reasonable measurement time. The method is based on a self-gated UTE with golden angle radial acquisition and compressed sensing reconstruction. The stochastic nature of the retrospective triggering acquisition scheme produces an under-sampled and random kt-space filling that allows for compressed sensing reconstruction, hence reducing scan time. As a standard, an intragate multislice FLASH sequence with an acquisition time of 4.5 min per slice was used to produce standard Cine movies of 4 mice hearts with 15 frames per cardiac cycle. The proposed self-gated sequence is used to produce Cine movies with short echo time. The total scan time was 11 min per slice. 6 slices were planned to cover the heart from the base to the apex. 2X, 4X and 6X under-sampled k-spaces cine movies were produced from 2, 1 and 0.7 min data acquisitions for each slice. The accelerated cine movies of the mouse hearts were successfully reconstructed with a compressed sensing algorithm. Compared to the FLASH cine images, the UTE images showed much less flow artifacts due to the short echo time. Besides, the accelerated movies had high image quality and the undersampling artifacts were effectively removed. Left ventricular functional parameters derived from the standard and the accelerated cine movies were nearly identical.

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Section: Introductionmentioning

confidence: 68%

Accelerated self-gated UTE MRI of the murine heart

et al. 2014

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“…Compressed sensing (CS) has proven a valuable technique for speeding up data acquisition in MRI by exploiting the compressibility of MR images [19][20][21][22]. The ability to transform the data to a sparse representation and the radial trajectory, which is used in Cine UTE imaging, fits very well with the sparsity and incoherence requirements for CS.…”

Section: Cs Reconstructionmentioning

confidence: 91%

Functional imaging of murine hearts using accelerated self-gated UTE cine MRI

Motaal

Noorman

Graaf

et al. 2014

Int J Cardiovasc Imaging

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“…Analysis of the navigator echo was performed as described previously 24 to yield k-space signals for 20 frames per slice, which were then subjected to CS-reconstruction as reported previously 25 , followed by isotropic zerofilling (factor of two), filtering (modified third-order Butterworth filter), and Fourier transformation. Examples for respiratory and cardiac traces obtained from the navigator signal are shown in Fig.…”

Section: Mri Data Reconstructionmentioning

confidence: 99%

Magnetic resonance imaging of the regenerating neonatal mouse heart

Gunadasa-Rohling

Masters

Maguire

et al. 2018

Preprint

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We present longitudinal magnetic resonance imaging (MRI) of neonatal mouse hearts during the first three weeks following coronary artery ligation to mimic heart attack. We confirm heart regeneration in individual animals injured on post-natal day 1 (P1) while those injured on P7 show the adult response of fibrosis, scarring and impaired heart performance. We document heart growth and development of the principal functional cardiac parameters, and also remodeling during tissue regeneration as compared to fibrosis when imaging repeatedly up to 21 days after myocardial infarction (MI). We reveal compensatory changes in cardiac function with the restoration of tissue and resolution of injury for the P1 cohort and sustained injury responses for the P7 cohort. This study resolves the controversy surrounding neonatal mouse heart regeneration and establishes a functional platform for live capture of the regenerative process and for the future testing of genetic or therapeutic interventions.

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Accelerating cine‐MR imaging in mouse hearts using compressed sensing

Cited by 39 publications

References 25 publications

Accelerated self-gated UTE MRI of the murine heart

Accelerated self-gated UTE MRI of the murine heart

Functional imaging of murine hearts using accelerated self-gated UTE cine MRI

Magnetic resonance imaging of the regenerating neonatal mouse heart

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