GRAPPA reconstructed wave-CAIPI MP-RAGE at 7 Tesla

Autor:	Daniel Brenner, Martin Reuter, Tony Stöcker, Eberhard D. Pracht, Jolanda M. Schwarz
Rok vydání:	2018
Předmět:	Mean squared error Computer science Image quality Noise enhancement Reconstruction algorithm 030218 nuclear medicine & medical imaging law.invention 03 medical and health sciences 0302 clinical medicine Data acquisition Sampling (signal processing) law Aliasing Radiology Nuclear Medicine and imaging Cartesian coordinate system Algorithm 030217 neurology & neurosurgery
Zdroj:	Magnetic Resonance in Medicine. 80:2427-2438
ISSN:	0740-3194
DOI:	10.1002/mrm.27215
Popis:	Purpose The aim of this project was to develop a GRAPPA-based reconstruction for wave-CAIPI data. Wave-CAIPI fully exploits the 3D coil sensitivity variations by combining corkscrew k-space trajectories with CAIPIRINHA sampling. It reduces artifacts and limits reconstruction induced spatially varying noise enhancement. The GRAPPA-based wave-CAIPI method is robust and does not depend on the accuracy of coil sensitivity estimations. Methods We developed a GRAPPA-based, noniterative wave-CAIPI reconstruction algorithm utilizing multiple GRAPPA kernels. For data acquisition, we implemented a fast 3D magnetization-prepared rapid gradient-echo wave-CAIPI sequence tailored for ultra-high field application. The imaging results were evaluated by comparing the g-factor and the root mean square error to Cartesian CAIPIRINHA acquisitions. Additionally, to assess the performance of subcortical segmentations (calculated by FreeSurfer), the data were analyzed across five subjects. Results Sixteen-fold accelerated whole brain magnetization-prepared rapid gradient-echo data (1 mm isotropic resolution) were acquired in 40 seconds at 7T. A clear improvement in image quality compared to Cartesian CAIPIRINHA sampling was observed. For the chosen imaging protocol, the results of 16-fold accelerated wave-CAIPI acquisitions were comparable to results of 12-fold accelerated Cartesian CAIPIRINHA. In comparison to the originally proposed SENSitivity Encoding reconstruction of Wave-CAIPI data, the GRAPPA approach provided similar image quality. Conclusion High-quality, wave-CAIPI magnetization-prepared rapid gradient-echo images can be reconstructed by means of a GRAPPA-based reconstruction algorithm. Even for high acceleration factors, the noniterative reconstruction is robust and does not require coil sensitivity estimations. By altering the aliasing pattern, ultra-fast whole-brain structural imaging becomes feasible.
Databáze:	OpenAIRE
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