Litcius/Paper detail

A 48-channel receive array coil for mesoscopic diffusion-weighted MRI of ex vivo human brain on the 3 T connectome scanner

Alina Scholz, Robin Etzel, Markus May, Mirsad Mahmutović, Qiyuan Tian, Gabriel Ramos‐Llordén, Chiara Maffei, Berkin Bilgic̦, Thomas Witzel, Jason Stockmann, Choukri Mekkaoui, Lawrence L. Wald, Susie Y. Huang, Anastasia Yendiki, Boris Keil

2021NeuroImage21 citationsDOIOpen Access PDF

Abstract

In vivo diffusion-weighted magnetic resonance imaging is limited in signal-to-noise-ratio (SNR) and acquisition time, which constrains spatial resolution to the macroscale regime. Ex vivo imaging, which allows for arbitrarily long scan times, is critical for exploring human brain structure in the mesoscale regime without loss of SNR. Standard head array coils designed for patients are sub-optimal for imaging ex vivo whole brain specimens. The goal of this work was to design and construct a 48-channel ex vivo whole brain array coil for high-resolution and high b-value diffusion-weighted imaging on a 3T Connectome scanner. The coil was validated with bench measurements and characterized by imaging metrics on an agar brain phantom and an ex vivo human brain sample. The two-segment coil former was constructed for a close fit to a whole human brain, with small receive elements distributed over the entire brain. Imaging tests including SNR and G-factor maps were compared to a 64-channel head coil designed for in vivo use. There was a 2.9-fold increase in SNR in the peripheral cortex and a 1.3-fold gain in the center when compared to the 64-channel head coil. The 48-channel ex vivo whole brain coil also decreases noise amplification in highly parallel imaging, allowing acceleration factors of approximately one unit higher for a given noise amplification level. The acquired diffusion-weighted images in a whole ex vivo brain specimen demonstrate the applicability and advantage of the developed coil for high-resolution and high b-value diffusion-weighted ex vivo brain MRI studies.

Topics & Concepts

Ex vivoRadiofrequency coilElectromagnetic coilMagnetic resonance imagingScannerConnectomeImaging phantomDiffusion MRIHuman Connectome ProjectHuman brainBiomedical engineeringNuclear magnetic resonanceMaterials sciencePhysicsOpticsIn vivoMedicineNeurosciencePsychologyRadiologyBiotechnologyBiologyQuantum mechanicsFunctional connectivityAdvanced Neuroimaging Techniques and ApplicationsAdvanced MRI Techniques and ApplicationsMRI in cancer diagnosis