Model‐based image reconstruction with wavelet sparsity regularization for through‐plane resolution restoration in T2‐weighted spin‐echo prostate MRI

Purpose The purpose is to develop a model‐based image‐reconstruction method using wavelet sparsity regularization for maintaining restoration of through‐plane resolution but with improved retention of SNR versus linear reconstruction using Tikhonov (TK) regularization in high through‐plane resolutio...

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Bibliographic Details
Published in:Magnetic resonance in medicine 2023-01, Vol.89 (1), p.454-468
Main Authors: Borisch, Eric A., Froemming, Adam T., Grimm, Roger C., Kawashima, Akira, Trzasko, Joshua D., Riederer, Stephen J.
Format: Article
Language:English
Subjects:
Calibration
Image processing
Image reconstruction
inverse problem for slice profile correction
Magnetic resonance imaging
Medical imaging
model‐based image reconstruction
Muscles
Noise reduction
Prostate
prostate MRI
Regularization
Restoration
Sparsity
super resolution
T2‐weighted spin echo
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Summary:Purpose The purpose is to develop a model‐based image‐reconstruction method using wavelet sparsity regularization for maintaining restoration of through‐plane resolution but with improved retention of SNR versus linear reconstruction using Tikhonov (TK) regularization in high through‐plane resolution (1 mm) T2‐weighted spin‐echo (T2SE) images of the prostate. Methods A wavelet sparsity (WS)–regularized image reconstruction was developed that takes as input a set of ≈80 overlapped 3‐mm‐thick slices acquired using a T2SE multislice scan and typically 30 coil elements. After testing in contrast and resolution phantoms and calibration in 6 subjects, the WS reconstruction was evaluated in 16 consecutive prostate T2SE MRI exams. Results reconstructed with nominal 1‐mm thickness were compared with those from the TK reconstruction with the same raw data. Results were evaluated radiologically. The ratio of magnitude of prostate signal to periprostatic muscle signal was used to assess the presence of noise reduction. Technical performance was also compared with a commercial 3D‐T2SE sequence. Results The new WS reconstruction was assessed as superior statistically to TK for overall SNR, contrast, and multiple evaluation criteria related to sharpness while retaining the high (1 mm) through‐plane resolution. Wavelet sparsity tended to provide improved overall diagnostic quality versus TK, but not significantly so. In all 16 studies, the prostate‐to‐muscle signal ratio increased. Conclusions Model‐based WS‐regularized reconstruction consistently provides improved SNR in high (1 mm) through‐plane resolution images of prostate T2SE MRI versus linear reconstruction using TK regularization.
ISSN:0740-3194
1522-2594
1522-2594
DOI:10.1002/mrm.29447