Filter Applied: MRI,field strength,high (Click to remove)

The Thalamus and Multiple Sclerosis
Neurol 80:210-219, Minagar, A.,et al, 2013

Occult Amyloid-B-Related Angiitis:Neuroimaging Findings at 1.5T, 3T, and 7T MRI
AJNR 45:1013-1018, Ozutemlz,C.,et al, 2024

Occipital Cortical Calcifications in Cerebral Amyloid Angiopathy
Stroke 52:1851-1855, Rasing, I.,et al, 2021

Paramagnetic Rim Lesions are Specific to Multiple Sclerosis:An International Multicenter 3T MRI Study
Ann Neurol 88:1034-1042, Maggi,P.,et al, 2020

Evaluation of the Central Vein Sign as a Diagnostic Imaging Biomarker in Multiple Sclerosis
JAMA Neurol 76:1446-1456, Sinnecker, T.,et al, 2019

Multiple Sclerosis
NEJM 378:169-180, Reich, D.S.,et al, 2018

Value of the Central Vein Sign at 3T to Differentiate MS from Seropositive NMOSD
Neurol 90:e1183-e1190, Cortese, R.,et al, 2018

Pseudo-Leptomeningeal Contrast Enhancement at 3T in Pediatric Patients Sedated by Propofol
AJNR 39:1739-1744, McKinney, A.M.,et al, 2018

Vascular Wall Imaging in Reversible Cerebral Vasoconstriction Syndrome - a 3-T Contrast-Enhanced MRI Study
J Headache Pain 19:74-81, Chen, C.Y.,et al, 2018

The Contrast Enhancement of Intracranial Arterial Wall on High-Resolution MRI and Its Clinical Relevance in Patients with Moyamoya Vasculopathy
Sci Rep 7:44264 doi:10.1038/srep44264, Wang, M.,et al, 2017

Comparing 3T and 1.5T MRI for Mapping Hippocampal Atrophy in the Alzheimers Disease Neuroimaging Initiative
AJNR 36:653-660, Chow, N.,et al, 2015

Nigrosome 1 Detection at 3T MRI for the Diagnosis of Early-Stage Idiopathic Parkinson Disease: Assessment of DIagnostic Accuracy and Agreement on Imaging Asymmetry and Clinical Laterality
AJNR 36:2010-2016, Noh, Y.,et al, 2015

Anterior Interosseous Nerve Syndrome
Neurol 82:598-606, Pham, M.,et al, 2014

Use of a Novel High-Resolution Magnetic Resonance Neurography Protocol to Detect Abnormal Dorsal Root Ganglia in Sjogren Patients with Neuropathic Pain
Medicine 93:121-134, Birnbaum, J.,et al, 2014

High-Resolution MRI Evaluation of Neonatal Brachial Plexus Palsy: A Promising Alternative to Traditional CT Myelography
AJNR 35:1209-1213, Somashekar, D.,et al, 2014

High-Resolution Magnetic Resonance Imaging An Emerging Tool for Evaluating Intracranial Arterial Disease
Stroke 44:287-292, Bodle, J.,et al, 2013

Distinct Lesion Morphology at 7-T MRI Differentiates Neuromyelitis Optica from Multiple Sclerosis
Neurol 79:708-714, Sinnecker, T.,et al, 2012

Reliability of Aortic MRI at 3 Testla in Patients with Acute Cryptogenic Stroke
JNNP 79:540-546,489, Harloff,A.,et al, 2008

Detection of Intracranial Atherosclerotic Steno-Occlusive Disease With 3D Time-Of-Flight Magnetic Resonance Angiography With Sensitivity Encoding at 3T
AJNR 28:439-446, Choi,C.G.,et al, 2007

Quantitative Assessment of Iron Accumulation in the Deep Gray Matter of Multiple Sclerosis by Magnetic Field Correlation Imaging
AJNR 28:1639-1644, Ge,Y.,et al, 2007

Does High-Field MR Imaging Have an Influence on the Classification of Patients with Clinically Isolated Syndromes According to Current Diagnostic MR Imaging Criteria for Multiple Sclerosis
AJNR 27:1794-1798, Wattjes,M.P.,et al, 2006

Magnetic Resonance Imaging of Brain Iron in Health and Disease
J Neurol Sci 134:19-26,1, Vymazal,J.,et al, 1995