Commissioning of the Iseult CEA 11.7 T whole-body MRI: current status, gradient–magnet interaction tests and first imaging experience

[1] Ugurbil K(2014)Magnetic resonance imaging at ultrahigh fields IEEE Trans Biomed Eng 61 1364-1379

[2] Ugurbil K(2018)Imaging at ultrahigh magnetic fields: history, challenges, and solutions Neuroimage 168 7-32

[3] Ladd ME(2018)The quest for higher sensitivity in MRI through higher magnetic fields ZMed Phys 28 1-3

[4] Budinger TF(2018)MRI and MRS of the human brain at magnetic fields of 14T to 20T: technical feasibility, safety, and neuroscience horizons Neuroimage 168 509-531

[5] Bird MD(2018)The impact of ultra-high field MRI on cognitive and computational neuroimaging Neuroimage 168 366-382

[6] De Martino F(2018)Ultra-high field MRI: advancing systems neuroscience towards mesoscopic human brain function Neuroimage 168 345-357

[7] Yacoub E(2018)Key clinical benefits of neuroimaging at 7T Neuroimage 168 477-489

[8] Kemper V(2016)Signal-to-noise ratio and MR tissue parameters in human brain imaging at 3, 7, and .4 tesla using current receive coil arrays Magn Reson Med 75 801-809

[9] Dumoulin SO(2022)Magnetic field strength dependent SNR gain at the center of a spherical phantom and up to 11.7T Magn Reson Med 88 2131-2138

[10] Fracasso A(1999)Design and assembly of an 8 tesla whole-body MR scanner J Comput Assist Tomogr 23 808-820

[1] Ugurbil K(2014)Magnetic resonance imaging at ultrahigh fields IEEE Trans Biomed Eng 61 1364-1379

[2] Ugurbil K(2018)Imaging at ultrahigh magnetic fields: history, challenges, and solutions Neuroimage 168 7-32

[3] Ladd ME(2018)The quest for higher sensitivity in MRI through higher magnetic fields ZMed Phys 28 1-3

[4] Budinger TF(2018)MRI and MRS of the human brain at magnetic fields of 14T to 20T: technical feasibility, safety, and neuroscience horizons Neuroimage 168 509-531

[5] Bird MD(2018)The impact of ultra-high field MRI on cognitive and computational neuroimaging Neuroimage 168 366-382

[6] De Martino F(2018)Ultra-high field MRI: advancing systems neuroscience towards mesoscopic human brain function Neuroimage 168 345-357

[7] Yacoub E(2018)Key clinical benefits of neuroimaging at 7T Neuroimage 168 477-489

[8] Kemper V(2016)Signal-to-noise ratio and MR tissue parameters in human brain imaging at 3, 7, and .4 tesla using current receive coil arrays Magn Reson Med 75 801-809

[9] Dumoulin SO(2022)Magnetic field strength dependent SNR gain at the center of a spherical phantom and up to 11.7T Magn Reson Med 88 2131-2138

[10] Fracasso A(1999)Design and assembly of an 8 tesla whole-body MR scanner J Comput Assist Tomogr 23 808-820