The role of MR volumetry in brain atrophy assessment
in multiple sclerosis: A review of the literature

Marciniewicz, Ewelina; Podgórski, Przemysław; Sąsiadek, Marek; Bladowska, Joanna

doi:10.17219/acem/94137

Cited by 24 publications

(20 citation statements)

References 63 publications

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“…In our previously published review we analysed the then current available evidence regarding the role of brain atrophy measurements and its consequence in MS patients [23]. Grey matter atrophy develops faster than white matter atrophy and correlates with physical and cognitive disability.…”

Section: Discussionmentioning

confidence: 99%

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Quantitative magnetic resonance assessment of brain atrophy related to selected aspects of disability in patients with multiple sclerosis: preliminary results

Marciniewicz¹,

Pokryszko−Dragan²,

Podgórski³

et al. 2019

Pol J Radiol

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The aim of this volumetric study was to evaluate the relationship between brain atrophy quantification in multiple sclerosis (MS) patients and the progression of disability measured by neurological standardised tests. Material and methods: Seventeen patients (mean age 40.89 years) with clinically definite MS and 24 control subjects (mean age 38.45 years) were enrolled in the study. Brain examinations were performed on a 1.5T MR scanner. Automatic brain segmentation was done using FreeSurfer. Neurological disability was assessed in all patients in baseline and after a median follow-up of two years, using EDSS score evaluation. Results: In MS patients we found significantly (p < 0.05) higher atrophy rates in many brain areas compared with the control group. The white matter did not show any significant rate of volume loss in MS patients compared to healthy controls. Significant changes were found only in grey matter volume in MS subjects. At the follow-up evaluation after two years MS patients with deterioration in disability revealed significantly decreased cerebral volume in 14 grey matter areas at baseline magnetic resonance imaging (MRI) compared to MS subjects without disability progression. Conclusions: Grey matter atrophy is associated with the degree of disability in MS patients. Our results suggest that morphometric measurements of brain volume could be a promising non-invasive biomarker in assessing the volumetric changes in MS patients as related to disability progression in the course of the disease.

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Section: Discussionmentioning

confidence: 99%

“…In our previous review we described the mechanisms that contribute to brain atrophy and important biological factors that can influence the accuracy of brain volume quantification [5]. Atrophy is not only seen within the lesions but also in normal-appearing white matter and grey matter.…”

Section: Introductionmentioning

confidence: 99%

Quantitative magnetic resonance assessment of brain atrophy related to selected aspects of disability in patients with multiple sclerosis: preliminary results

Marciniewicz¹,

Pokryszko−Dragan²,

Podgórski³

et al. 2019

Pol J Radiol

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“…Accelerated brain atrophy is well documented in MS. 7,40–43 Annual tissue loss is around 0.5%–1% compared to 0.1%–0.3% in controls and occurs in all subtypes of MS. 44–46 Currently, 3D T1-weighted MRI is the most commonly used scan for measuring whole-brain volume, cortical thickness/volume, and deep gray matter volume as imaging markers of brain atrophy in MS. 47 The precision of current methods for computing MRI volumetric biomarkers depends on image resolution and contrast between white matter, gray matter, and/or CSF. Most current methods of processing MRI scans involve a key preprocessing step of reslicing input scans into 1 mm (or smaller) isotropic resolution.…”

Section: D T1-weighted Volumetric Mrimentioning

confidence: 99%

Three-dimensional MRI sequences in MS diagnosis and research

Rajendran

Lapointe

et al. 2019

Mult Scler

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The most recent guidelines for magnetic resonance imaging (MRI) in multiple sclerosis (MS) recommend three-dimensional (3D) MRI sequences over their two-dimensional (2D) counterparts. This development has been made possible by advances in MRI scanner hardware and software. In this article, we review the 3D versions of conventional sequences, including T1-weighted, T2-weighted and fluid-attenuated inversion recovery (FLAIR), as well as more advanced scans, including double inversion recovery (DIR), FLAIR2, FLAIR*, phase-sensitive inversion recovery, and susceptibility weighted imaging (SWI).

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“…However, it remains unknown whether brain atrophy or amount of T1-black hole would better reflect the concurrent neurological disability [21]. Therefore, the need for these data in routine clinical practice is still unmet [19,31]. To maximize the clinical usability of brain volumetry, clarifying the clinical significance of each volumetric variable is essential.…”

Section: Introductionmentioning

confidence: 99%

Number of MRI T1-hypointensity corrected by T2/FLAIR lesion volume indicates clinical severity in patients with multiple sclerosis

et al. 2020

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Introduction Progressive brain atrophy, development of T1-hypointense areas, and T2-fluid-attenuated inversion recovery (FLAIR)-hyperintense lesion formation in multiple sclerosis (MS) are popular volumetric data that are often utilized as clinical outcomes. However, the exact clinical interpretation of these volumetric data has not yet been fully established. Methods We enrolled 42 consecutive patients with MS who fulfilled the revised McDonald criteria of 2010. They were followed-up for more than 3 years from onset, and cross-sectional brain volumetry was performed. Patients with no brain lesions were excluded in advance from this study. For the brain volumetric data, we evaluated several parameters including ageadjusted gray-matter volume atrophy, age-adjusted white-matter volume atrophy, and T2-FLAIR lesion volume. The numbers of T1-hypointense and T2-FLAIR-hyperintense areas were also measured along the same timeline. The clinical data pertaining to disease duration, expanded disability status scale (EDSS), and MS severity score (MSSS) at the timing of volumetry were collected. Results Among the 42 patients with MS and brain lesions, the number of T1-hypointensity (rho = 0.51, p<0.001), gray-matter atrophy (rho = 0.40, p<0.01) and white-matter atrophy (rho = 0.49, p<0.001) correlated with the EDSS. T1-hypointensity count divided by FLAIR lesion volume correlated with the MSSS (rho = 0.60, p<0.001). Meanwhile, counts or volumes of FLAIR-hyperintense lesions were associated only with the times of past relapses, and did not correlate with present neurological disability level or ongoing disease activity. These findings were consistent regardless of the presence of spinal cord lesions.

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The role of MR volumetry in brain atrophy assessment in multiple sclerosis: A review of the literature

Cited by 24 publications

References 63 publications

Quantitative magnetic resonance assessment of brain atrophy related to selected aspects of disability in patients with multiple sclerosis: preliminary results

Quantitative magnetic resonance assessment of brain atrophy related to selected aspects of disability in patients with multiple sclerosis: preliminary results

Three-dimensional MRI sequences in MS diagnosis and research

Number of MRI T1-hypointensity corrected by T2/FLAIR lesion volume indicates clinical severity in patients with multiple sclerosis

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