NielsenASKinkelRPTinelliE. Focal cortical lesion detection in multiple sclerosis: 3T DIR versus 7T FLASH-T2. J Magn Reson Imaging2012; 35: 537–542.
2.
PittDBosterAPeiW. Imaging cortical lesions in multiple sclerosis with ultra-high-field magnetic resonance imaging. Arch Neurol2010; 67: 812–818.
3.
YaoBHametnerSvan GelderenP. 7 Tesla magnetic resonance imaging to detect cortical pathology in multiple sclerosis. PLoS ONE2014; 9(10): e108863.
4.
KilsdonkIDSteenwijkMDPouwelsP. Perivascular spaces in MS patients at 7 Tesla MRI: A marker of neurodegeneration?Mult Scler2015; 21: 155–162.
5.
DulaANPawateSDortchRD. Magnetic resonance imaging of the cervical spinal cord in multiple sclerosis at 7T. Mult Scler2016; 22: 320–328.
6.
BagnatoFHametnerSYaoB. Tracking iron in multiple sclerosis: A combined imaging and histopathological study at seven tesla. Brain2011; 134: 3602–3615.
7.
AbsintaMSatiPSchindlerM. Persistent 7-tesla phase rim predicts poor outcome in new multiple sclerosis patient lesions. J Clin Invest2016; 126: 2597–2609.
8.
PrineasJWKwonEEChoES. Immunopathology of secondary-progressive multiple sclerosis. Ann Neurol2001; 50: 646–657.
9.
TallantyreECDixonJEDonaldsonI. Ultra-high-field imaging distinguishes MS lesions from asymptomatic white matter lesions. Neurology2011; 76: 534–539.
10.
WuerfelJSinneckerTRingelsteinEB. Lesion morphology at 7 Tesla MRI differentiates Susac syndrome from multiple sclerosis. Mult Scler2012; 18: 1592–1599.