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A local multi‐transmit coil combined with a high‐density receive array for cerebellar fMRI at 7 T

Nikos Priovoulos, Thomas Roos, Özlem İpek, Ettore Flavio Meliadò, Richard O. Nkrumah, Dennis W. J. Klomp, Wietske van der Zwaag

2021NMR in Biomedicine17 citationsDOIOpen Access PDF

Abstract

The human cerebellum is involved in a wide array of functions, ranging from motor control to cognitive control, and as such is of great neuroscientific interest. However, its function is underexplored in vivo, due to its small size, its dense structure and its placement at the bottom of the brain, where transmit and receive fields are suboptimal. In this study, we combined two dense coil arrays of 16 small surface receive elements each with a transmit array of three antenna elements to improve BOLD sensitivity in the human cerebellum at 7 T. Our results showed improved B 1 + and SNR close to the surface as well as g ‐factor gains compared with a commercial coil designed for whole‐head imaging. This resulted in improved signal stability and large gains in the spatial extent of the activation close to the surface (<3.5 cm), while good performance was retained deeper in the cerebellum. Modulating the phase of the transmit elements of the head coil to constructively interfere in the cerebellum improved the B 1 + , resulting in a temporal SNR gain. Overall, our results show that a dedicated transmit array along with the SNR gains of surface coil arrays can improve cerebellar imaging, at the cost of a decreased field of view and increased signal inhomogeneity.

Topics & Concepts

CerebellumElectromagnetic coilSIGNAL (programming language)RangingComputer scienceAntenna (radio)Radio frequencyStability (learning theory)PhysicsNuclear magnetic resonanceAcousticsNeuroscienceTelecommunicationsBiologyProgramming languageMachine learningQuantum mechanicsAdvanced MRI Techniques and ApplicationsFetal and Pediatric Neurological DisordersAdvanced Neuroimaging Techniques and Applications