Autor: |
Freitas, Andreia C., Gaspar, Andreia S., Sousa, Inês, Teixeira, Rui P. A. G., Hajnal, Joseph V., Nunes, Rita G. |
Předmět: |
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Zdroj: |
Magnetic Resonance in Medicine; Nov2021, Vol. 86 Issue 5, p2426-2440, 15p |
Abstrakt: |
Purpose: To simultaneously estimate the B1+ field (along with the T2) in the brain with multispin‐echo (MSE) sequences and dictionary matching. Methods: T2 mapping provides clinically relevant information such as in the assessment of brain degenerative diseases. It is commonly obtained with MSE sequences, and accuracy can be further improved by matching the MSE signal to a precomputed dictionary of echo‐modulation curves. For additional T1 quantification, transmit B1+ field knowledge is also required. Preliminary work has shown that although simultaneous brain B1+ estimation along with T2 is possible, it presents a bimodal distribution with the main peak coinciding with the true value. By taking advantage of this, the B1+ maps are expected to be spatially smooth by applying an iterative method that takes into account each pixel neighborhood known as the fusion bootstrap moves solver (FBMS). The effect of the FBMS on B1+ accuracy and piecewise smoothness is investigated and different spatial regularization levels are compared. Total variation regularization was used for both B1+ and T2 simultaneous estimation because of its simplicity as an initial proof‐of‐concept; future work could explore non edge‐preserving regularization independently for B1+. Results: Improvements in B1+ accuracy (up to 45.37% and 16.81% B1+ error decrease) and recovery of spatially homogeneous maps are shown in simulations and in vivo 3.0T brain data, respectively. Conclusion: Accurate B1+ estimated values can be obtained from widely available MSE sequences while jointly estimating T2 maps with the use of echo‐modulation curve matching and FBMS at no further cost. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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