about
Saccadic Palsy following Cardiac Surgery: Possible Role of Perineuronal NetsSub-millimeter imaging of brain-free water for rapid volume assessment in atrophic brains.A fast multiparameter MRI approach for acute stroke assessment on a 3T clinical scanner: preliminary results in a non-human primate model with transient ischemic occlusionPostmortem magnetic resonance imaging to guide the pathologic cut: individualized, 3-dimensionally printed cutting boxes for fixed brainsMagnetic resonance imaging of tissue and vascular layers in the cat retina.In vivo imaging of spinal cord atrophy in neuroinflammatory diseases.Myelination and long diffusion times alter diffusion-tensor-imaging contrast in myelin-deficient shiverer miceSocial subordination stress and serotonin transporter polymorphisms: associations with brain white matter tract integrity and behavior in juvenile female macaques.Gadolinium-based MRI characterization of leptomeningeal inflammation in multiple sclerosis.Optimized T1-MPRAGE sequence for better visualization of spinal cord multiple sclerosis lesions at 3TTemporal evolution of ischemic lesions in nonhuman primates: a diffusion and perfusion MRI study.Saccadic palsy following cardiac surgery: a review and new hypothesisDirect MRI detection of impending plaque development in multiple sclerosis.A 7T spine array based on electric dipole transmitters.Leptomeningeal gadolinium enhancement across the spectrum of chronic neuroinflammatory diseases.Multiple sclerosis shrinks intralesional, and enlarges extralesional, brain parenchymal veins.Statistical estimation of T1 relaxation times using conventional magnetic resonance imaging.Development of neurologic diseases in a patient with primate T lymphotropic virus type 1 (PTLV-1).Development of a Sensitive Outcome for Economical Drug Screening for Progressive Multiple Sclerosis Treatment.Quantification of multiple-sclerosis-related brain atrophy in two heterogeneous MRI datasets using mixed-effects modelingLayer-specific anatomical, physiological and functional MRI of the retinaIn vivo evaluation of optic nerve development in non-human primates by using diffusion tensor imagingUtilizing 3D Printing Technology to Merge MRI with Histology: A Protocol for Brain Sectioning.Assessment of Early Evidence of Multiple Sclerosis in a Prospective Study of Asymptomatic High-Risk Family Members.Volumetric Analysis from a Harmonized Multisite Brain MRI Study of a Single Subject with Multiple Sclerosis.Gradient nonlinearity effects on upper cervical spinal cord area measurement from 3D T1 -weighted brain MRI acquisitions.Human and nonhuman primate meninges harbor lymphatic vessels that can be visualized noninvasively by MRI.Imaging Spinal Cord Atrophy in Progressive Myelopathies: HTLV-I Associated Neurologic Disease (HAM/TSP) and Multiple Sclerosis (MS).Effects of common anesthetics on eye movement and electroretinogram.Manganese-enhanced MRI reveals multiple cellular and vascular layers in normal and degenerated retinas.Transverse relaxation of cerebrospinal fluid depends on glucose concentration.The NAIMS cooperative pilot project: Design, implementation and future directions.Slowly eroding lesions in multiple sclerosis.Maternal buffering beyond glucocorticoids: impact of early life stress on corticolimbic circuits that control infant responses to novelty.Improved Visualization of Cortical Lesions in Multiple Sclerosis Using 7T MP2RAGE.Patterns of spinal cord atrophy in HTLV-1 associated myelopathy/ tropical spastic paraparesis (HAM/TSP).An Automated Statistical Technique for Counting Distinct Multiple Sclerosis Lesions.Magnetic Resonance Imaging and Histopathological Visualization of Human Dural Lymphatic Vessels.Quantifying spinal cord cross-sectional area in HTLV-1 associated myelopathy/tropical spastic paraparesis (HAM/TSP).Robust, atlas-free, automatic segmentation of brain MRI in health and disease
P50
Q27303114-25289710-4A27-4B71-AAE6-60E65B94926DQ30832217-41E412E1-0C16-445F-9C42-B13A7B7FDEC7Q33585435-E836FF33-4733-410B-A5E8-5ED440947227Q34086940-A676B4E9-6E3F-401C-B0C3-E7E3D79F6822Q34175112-27666DFD-9782-47C9-9273-FFBCD8763FB0Q34195686-47C81A33-19DF-4CB7-821B-EBEB2C0E068AQ34234768-1066FD28-9BD2-4F89-95DE-C9274B4FA655Q34472053-CE937CA3-65AE-4D74-9960-6C9ABACD8616Q34472457-42F93A4A-3664-451A-B4E3-6F6BCB544022Q34781818-59B416A5-D581-4152-8F4D-CFF6521D2094Q35057757-C117F53F-E666-4E58-8B70-C1B628982307Q35536923-BE29F690-E75A-47BB-8E4C-643A116112B4Q36031724-63166936-E9F8-4D2A-85BC-1E195CE065C7Q36073275-B9D1FAB7-0BC3-44D5-8F2F-BDD618B9E168Q36304912-497EF17C-E9DE-4475-BC89-5C42A1DDAE34Q36659375-CC20FAC3-218F-4E3B-85CC-217F3678DD08Q36957820-5FAFB5D2-2D11-43EA-882E-563D29E53FE0Q37171376-A35C205C-E032-4F18-A69A-3C2D3C5F4650Q37172794-FFDBBFF8-9DCA-412A-AEC4-9C002A24CA0CQ37217111-CE9EA314-88DC-4476-9E5E-8CEC1D025A9DQ37269049-E327BFB8-89EA-4BB6-A4AE-E77F1531E9A4Q37385003-FF00C1D5-0634-40D2-B231-FF5D9574C27BQ37580028-5576838C-EC40-471B-B42E-77D39730AD04Q38381938-0B6AF5BE-EE7D-4055-A8B4-7499378108DBQ38713119-3315F7BC-5C37-4309-9B2C-45FE6D92BD91Q38724282-64EFA59D-B3D4-42F1-9707-AAF314743B56Q41843877-78A81AA9-B0FA-4C68-8744-12A1C864A950Q41918095-6058DE93-3EC6-4632-BBF7-4BC9532E03B4Q42069411-EDD4CE09-0AC7-4E76-89E8-44E8F53B9E4EQ43065654-1F3CE2DB-3681-4B8C-86F2-04743BAF24FEQ46324905-088B68DB-C244-4AA2-A244-CB9F01CCB9E7Q46326413-3A8D8CE7-D275-492B-9FA0-45CA982E6C99Q48658716-159DFEA8-4A56-46E7-B0B7-183E8B950CBFQ48681038-8F76D216-FC7E-4F3A-997A-692AA8049F56Q50035439-ACA9750C-2CC0-4FB8-B84A-38BB232A46DBQ50317768-663544E3-149F-4526-91E3-10F2FB53D1F2Q52689249-5C4A9253-2021-4AF0-83E5-281C9B666FBDQ55145167-801F09FD-2B4A-44C5-A35E-F81E77DC4E74Q55532151-09ED8279-C9D4-4F2C-9074-6BFB1F747CFBQ64263904-C8A61571-7A9B-48DC-801E-4B245060C5E0
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Govind Nair
@ast
Govind Nair
@en
Govind Nair
@es
Govind Nair
@nl
Govind Nair
@sl
type
label
Govind Nair
@ast
Govind Nair
@en
Govind Nair
@es
Govind Nair
@nl
Govind Nair
@sl
prefLabel
Govind Nair
@ast
Govind Nair
@en
Govind Nair
@es
Govind Nair
@nl
Govind Nair
@sl
P106
P2798
P31
P496
0000-0003-3725-615X