☆ 4.7 Review

Neurite Orientation Dispersion and Density Imaging in Multiple Sclerosis: A Systematic Review

JOURNAL OF MAGNETIC RESONANCE IMAGING (2023)

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NODDI, diffusion tensor microstructural abnormalities and atrophy of brain white matter and gray matter contribute to cognitive impairment in multiple sclerosis

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Summary: Using diffusion tensor and neurite orientation dispersion and density imaging (NODDI), this study found that neuro-axonal damage and loss of microarchitecture integrity in focal WM lesions, NAWM, and GM contribute to cognitive impairment in MS.

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Neurite Orientation Dispersion and Density Imaging in Psychiatric Disorders: A Systematic Literature Review and a Technical Note

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Summary: This article reviewed studies using neurite orientation dispersion and density imaging (NODDI) to assess brain microstructure in psychiatric disorders and found abnormal gray and white matter microstructure as well as variability in neurite density and fiber orientation. The authors suggested that NODDI could be used to detect subtle microstructure abnormalities in patients with psychiatric disorders and contribute to the development of next-generation biomarkers.

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Article Clinical Neurology

Short-Range Structural Connections Are More Severely Damaged in Early-Stage MS

H. Wu et al.

Summary: Short-range connections in early-stage multiple sclerosis (MS) are more severely damaged than long-range connections, suggesting that current magnetic resonance imaging may not be able to detect cortical lesions.

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Article Clinical Neurology

Microstructural white matter abnormalities in multiple sclerosis and neuromyelitis optica spectrum disorders: Evaluation by advanced diffusion imaging

Shimpei Kato et al.

Summary: The study aimed to differentiate between MS and NMOSD using DTI, FW imaging, and NODDI, revealing that FW imaging and NODDI were useful for identifying microstructural changes related to neurodegeneration and neuroinflammation in RRMS and NMOSD patients.

JOURNAL OF THE NEUROLOGICAL SCIENCES (2022)

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Article Clinical Neurology

Quantification of normal-appearing white matter damage in early relapse-onset multiple sclerosis through neurite orientation dispersion and density imaging

Monica Margoni et al.

Summary: This study characterized the NAWM damage in early relapse-onset MS patients using DTI and NODDI techniques. The results revealed decreased FA and increased MD values in various white matter bundles and a reduction in NDI in brain areas associated with FA/MD changes. However, NDI significant voxels were more numerous compared to FA/MD significant voxels. No significant correlations were observed between DTI/NODDI metrics and EDSS.

MULTIPLE SCLEROSIS AND RELATED DISORDERS (2022)

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Article Clinical Neurology

Advanced diffusion-weighted imaging models better characterize white matter neurodegeneration and clinical outcomes in multiple sclerosis

Loredana Storelli et al.

Summary: The study suggests that advanced diffusion-weighted imaging techniques can accurately detect white matter atrophy in patients with multiple sclerosis, providing more specific information than traditional methods that only measure volume and diffusion. Additionally, measures such as voxel-wise fiber-bundle cross-section and intra-cellular volume obtained at baseline are better predictors of clinical disability and cognitive impairment.

JOURNAL OF NEUROLOGY (2022)

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Article Neurosciences

Multimodal magnetic resonance imaging quantification of gray matter alterations in relapsing-remitting multiple sclerosis and neuromyelitis optica spectrum disorder

Christina Andica et al.

Summary: This study combined NODDI and SyMRI to evaluate GM microstructural alterations in RRMS and NMOSD patients, revealing reduced NDI and MVF and increased ODI and ISOVF in RRMS patients, mainly in limbic and paralimbic regions, while NMOSD patients showed reduced NDI in different cortical areas. RRMS and NMOSD exhibited distinct GM pathologies, with cautious interpretation of the results due to study limitations.

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A New Advanced MRI Biomarker for Remyelinated Lesions in Multiple Sclerosis

Reza Rahmanzadeh et al.

Summary: This study demonstrates the possibility of distinguishing chronic lesions in multiple sclerosis in a clinical setting and provides support for the development and assessment of remyelinating treatments using new biomarkers.

ANNALS OF NEUROLOGY (2022)

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Quantitative physical performance tests can effectively detect Degenerative Cervical Myelopathy: A systematic review and meta-analysis

Karlen K. P. Law et al.

Summary: This review aimed to identify effective physical performance tests for detecting and monitoring degenerative cervical myelopathy. The study found that tests such as Grip-and-Release Test, 9-Hole-Peg Test, Stepping Test, Walking Test, and Foot-Tapping Test were effective in detecting and monitoring the disease.

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Longitudinal microstructural MRI markers of demyelination and neurodegeneration in early relapsing-remitting multiple sclerosis: Magnetisation transfer, water diffusion and g-ratio

Elizabeth N. York et al.

Summary: In recently diagnosed RRMS patients, g-ratio and ICVF increased in NAWM, while MTsat, NODDI ICVF, and ISOVF increased in WML over time. Longitudinal changes in microstructural measures are significant at a group level, but limited by technique reproducibility in individual patients with early RRMS.

NEUROIMAGE-CLINICAL (2022)

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Article Clinical Neurology

Cortical axonal loss is associated with both gray matter demyelination and white matter tract pathology in progressive multiple sclerosis: Evidence from a combined MRI-histopathology study

Svenja Kiljan et al.

Summary: This study investigated the association between neuroaxonal degeneration and local cortical and connected white matter pathology in progressive multiple sclerosis. The findings revealed that reduced integrity of connected white matter tracts and cortical demyelination contribute to cortical axonal loss in PMS.

MULTIPLE SCLEROSIS JOURNAL (2021)

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Article Clinical Neurology

In vivo detection of damage in multiple sclerosis cortex and cortical lesions using NODDI

Paolo Preziosa et al.

Summary: This study characterized microstructural abnormalities in multiple sclerosis (MS) cortex using neurite orientation dispersion and density imaging (NODDI). Results showed significant neurite loss in MS normal-appearing (NA) cortex and further neurite density reduction in cortical lesions (CLs), indicating a simplification of neurite complexity. NODDI is relevant for investigating the heterogeneous pathology of the MS cortex in vivo.

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Myelin and axon pathology in multiple sclerosis assessed by myelin water and multi-shell diffusion imaging

Reza Rahmanzadeh et al.

Summary: Damage to both myelin and axons in multiple sclerosis is extensive, both in lesions and normal-appearing tissue. Certain types of lesions exhibit more severe damage to myelin and axons than others, and progressive patients show more extensive axon/myelin damage in the cortex compared to relapsing-remitting patients. Myelin and axon pathology in lesions is associated with disability in patients with clinical deficits and global measures of neuroaxonal damage.

BRAIN (2021)

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Article Clinical Neurology

Brain microstructural and metabolic alterations detected in vivo at onset of the first demyelinating event

Sara Collorone et al.

Summary: Through the use of multi-parametric quantitative MRI, early multiple sclerosis patients were found to have alterations in neurite orientation dispersion and total sodium concentration in normal brain tissues, which may be related to the disease pathophysiology. Differences in neurite density, orientation dispersion, and total sodium concentration were observed in white and grey matter regions between patients and healthy controls, suggesting clinically relevant pathology.

BRAIN (2021)

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Article Immunology

Linking Microstructural Integrity and Motor Cortex Excitability in Multiple Sclerosis

Angela Radetz et al.

Summary: The study investigated the microstructural integrity of the motor system in multiple sclerosis patients using advanced imaging techniques and found a link between microstructural characteristics, neural tissue excitability, and cognitive-motor performance. The NODDI parameters were more effective in detecting abnormalities in patients compared to healthy controls, suggesting the potential for using advanced biophysical models for predicting excitability alterations in neuroinflammation.

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Assessing brain injury topographically using MR neurite orientation dispersion and density imaging in multiple sclerosis

Amalie Chen et al.

Summary: The study utilized NODDI technology to quantify tissue damage in patients with multiple sclerosis. The results showed significant differences in NODDI parameters among different types of lesions and normal white matter, and their associations with disease progression.

JOURNAL OF NEUROIMAGING (2021)

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Widespread Disruptions of White Matter in Familial Multiple Sclerosis: DTI and NODDI Study

Zeinab Gharaylou et al.

Summary: This study utilized DTI and NODDI techniques to compare different groups of multiple sclerosis patients and their family members, revealing widespread white matter impairment in familial patients, while changes in sporadic patients and their healthy relatives were not significant.

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Quantitative 7-Tesla Imaging of Cortical Myelin Changes in Early Multiple Sclerosis

Valeria Barletta et al.

Summary: Cortical demyelination in early stages of multiple sclerosis can be detected by a novel quantitative MRI technique known as CME mapping, which shows microstructural changes related to myelin content and is more sensitive than NODDI. These changes observed in the cortex are associated with cognitive performance.

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Article Clinical Neurology

Comparison of Neurite Orientation Dispersion and Density Imaging and Two-Compartment Spherical Mean Technique Parameter Maps in Multiple Sclerosis

Daniel Johnson et al.

Summary: The study compared differences in NODDI and SMT metrics between healthy controls and MS patients, finding significant associations with disability and correlations between DTI and NODDI/SMT metrics in NAWM. All DTI, NODDI, and SMT metrics detected widespread differences between patients and controls in white matter, indicating their potential role in monitoring MS in clinical trials and practice.

FRONTIERS IN NEUROLOGY (2021)

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Investigating Microstructural Changes in White Matter in Multiple Sclerosis: A Systematic Review and Meta-Analysis of Neurite Orientation Dispersion and Density Imaging

Abdulmajeed Alotaibi et al.

Summary: The study investigated brain microstructural changes and neuroaxonal pathology in white matter lesions of patients with multiple sclerosis using NODDI metrics. The results showed a significant reduction in Neurite Density Index (NDI) in MS lesions and normal-appearing white matter (NAWM) compared to healthy participants, indicating potential damage or loss of neurites in MS.

BRAIN SCIENCES (2021)

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Reduced neurite density in the brain and cervical spinal cord in relapsing-remitting multiple sclerosis: A NODDI study

Sara Collorone et al.

MULTIPLE SCLEROSIS JOURNAL (2020)

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Connecting Immune Cell Infiltration to the Multitasking Microglia Response and TNF Receptor 2 Induction in the Multiple Sclerosis Brain

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FRONTIERS IN CELLULAR NEUROSCIENCE (2020)

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Neurite Orientation Dispersion and Density Imaging for Assessing Acute Inflammation and Lesion Evolution in MS

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AMERICAN JOURNAL OF NEURORADIOLOGY (2020)

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Characterizing Microstructural Tissue Properties in Multiple Sclerosis with Diffusion MRI at 7 T and 3 T: The Impact of the Experimental Design

Silvia De Santis et al.

NEUROSCIENCE (2019)

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Lesion activity and chronic demyelination are the major determinants of brain atrophy in MS

Chenyu Wang et al.

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Neurite imaging reveals microstructural variations in human cerebral cortical gray matter

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