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Article Abstract
Purpose: The characteristic MRI features of multiple sclerosis (MS) lesions make it conceptually appealing to pursue parametric mapping techniques that support simultaneous generation of quantitative maps of 2 or more MR contrast mechanisms. We present a modular rapid acquisition with relaxation enhancement (RARE)-EPI hybrid that facilitates simultaneous T and mapping (2in1-RARE-EPI).
Methods: In 2in1-RARE-EPI the first echoes in the echo train are acquired with a RARE module, later echoes are acquired with an EPI module. To define the fraction of echoes covered by the RARE and EPI module, an error analysis of T and was conducted with Monte Carlo simulations. Radial k-space (under)sampling was implemented for acceleration (R = 2). The feasibility of 2in1-RARE-EPI for simultaneous T and mapping was examined in a phantom study mimicking T and relaxation times of the brain. For validation, 2in1-RARE-EPI was benchmarked versus multi spin-echo (MSE) and multi gradient-echo (MGRE) techniques. The clinical applicability of 2in1-RARE-EPI was demonstrated in healthy subjects and MS patients.
Results: There was a good agreement between T / values derived from 2in1-RARE-EPI and T / reference values obtained from MSE and MGRE in both phantoms and healthy subjects. In patients, MS lesions in T and maps deduced from 2in1-RARE-EPI could be just as clearly delineated as in reference maps calculated from MSE/MGRE.
Conclusion: This work demonstrates the feasibility of radially (under)sampled 2in1-RARE-EPI for simultaneous T and mapping in MS patients.
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| http://dx.doi.org/10.1002/mrm.28811 | DOI Listing |
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