Your search keyword '"Gray Matter Atrophy"' showing total 151 results

1. Effects of obesity on aging brain and cognitive decline: A cohort study from the UK Biobank

Author

Li, Panlong, Zhu, Xirui, Huang, Chun, Tian, Shan, Li, Yuna, Qiao, Yuan, Liu, Min, Su, Jingjing, and Tian, Dandan

Published

2025

2. Evaluation of the results of magnetic resonance imaging of the brain for cognitive impairment in patients with heart failure: A review

Author

Merab A. Shariya, Dmitry V. Ustyuzhanin, Igor V. Zhirov, Yulia F. Osmolovskaya, and Sergey N. Tereshchenko

Subjects

heart failure, magnetic resonance imaging, cognitive impairment, left ventricular ejection fraction, cerebral perfusion, brain white matter hyperintensities, gray matter atrophy, Medicine

Abstract

Cognitive impairment is a very common comorbidity in patients with heart failure (HF). Patients with HF show signs of memory decline, difficulty concentrating, and attention deficits. Cognitive dysfunction in HF is associated with a poor prognosis. However, the diagnosis of cognitive impairment in heart failure has received insufficient attention in routine clinical practice. Neuropsychological screening tests are available to screen for cognitive impairment, but they are used infrequently. Therefore, it is of practical interest to search for magnetic resonance equivalents of cognitive disorders. The use of magnetic resonance imaging as a tool for identifying and quantifying neural correlates of cognitive functions is discussed.

Published

2024

3. Cortical lobar volume reductions associated with homocysteine-related subcortical brain atrophy and poorer cognition in healthy aging.

Author

Hyun Song, Bharadwaj, Pradyumna K., Raichlen, David A., Habeck, Christian G., Grilli, Matthew D., Huentelman, Matthew J., Hishaw, Georg A., Trouard, Theodore P., and Alexander, Gene E.

Subjects

COGNITION disorder risk factors, BRAIN anatomy, HOMOCYSTEINE, RESEARCH funding, BASAL ganglia, MULTIVARIATE analysis, CARDIOVASCULAR diseases risk factors, DESCRIPTIVE statistics, GRAY matter (Nerve tissue), ATROPHY, LONGITUDINAL method, WHITE matter (Nerve tissue), HIPPOCAMPUS (Brain), NEURORADIOLOGY, PARIETAL lobe, FACTOR analysis, ACTIVE aging, COGNITIVE aging, REGRESSION analysis

Abstract

Homocysteine (Hcy) is a cardiovascular risk factor implicated in cognitive impairment and cerebrovascular disease but has also been associated with Alzheimer's disease. In 160 healthy older adults (mean age = 69.66 ± 9.95 years), we sought to investigate the association of cortical brain volume with white matter hyperintensity (WMH) burden and a previously identified Hcy-related multivariate network pattern showing reductions in subcortical gray matter (SGM) volumes of hippocampus and nucleus accumbens with relative preservation of basal ganglia. We additionally evaluated the potential role of these brain imaging markers as a series of mediators in a vascular brain pathway leading to age-related cognitive dysfunction in healthy aging. We found reductions in parietal lobar gray matter associated with the Hcy-SGM pattern, which was further associated with WMH burden. Mediation analyses revealed that slowed processing speed related to aging, but not executive functioning or memory, was mediated sequentially through increased WMH lesion volume, greater Hcy-SGM pattern expression, and then smaller parietal lobe volume. Together, these findings suggest that volume reductions in parietal gray matter associated with a pattern of Hcy-related SGM volume differences may be indicative of slowed processing speed in cognitive aging, potentially linking cardiovascular risk to an important aspect of cognitive dysfunction in healthy aging. [ABSTRACT FROM AUTHOR]

Published

2024

4. Cerebral Gray Matter May Not Explain Sleep Slow-Wave Characteristics after Severe Brain Injury.

Author

Kalantari, Narges, Daneault, Véronique, Blais, Hélène, André, Claire, Sanchez, Erlan, Lina, Jean-Marc, Arbour, Caroline, Gilbert, Danielle, Carrier, Julie, and Gosselin, Nadia

Subjects

*GRAY matter (Nerve tissue), *SLOW wave sleep, *NON-REM sleep, *BRAIN injuries, *PREFRONTAL cortex, *PROPERTIES of matter

Abstract

Sleep slow waves are the hallmark of deeper non-rapid eye movement sleep. It is generally assumed that gray matter properties predict slow-wave density, morphology, and spectral power in healthy adults. Here, we tested the association between gray matter volume (GMV) and slow-wave characteristics in 27 patients with moderate-to-severe traumatic brain injury (TBI, 32.0 ± 12.2 years old, eight women) and compared that with 32 healthy controls (29.2 ± 11.5 years old, nine women). Participants underwent overnight polysomnography and cerebral MRI with a 3 Tesla scanner. A whole-brain voxel–wise analysis was performed to compare GMV between groups. Slow-wave density, morphology, and spectral power (0.4–6 Hz) were computed, and GMV was extracted from the thalamus, cingulate, insula, precuneus, and orbitofrontal cortex to test the relationship between slow waves and gray matter in regions implicated in the generation and/or propagation of slow waves. Compared with controls, TBI patients had significantly lower frontal and temporal GMV and exhibited a subtle decrease in slow-wave frequency. Moreover, higher GMV in the orbitofrontal cortex, insula, cingulate cortex, and precuneus was associated with higher slow-wave frequency and slope, but only in healthy controls. Higher orbitofrontal GMV was also associated with higher slow-wave density in healthy participants. While we observed the expected associations between GMV and slow-wave characteristics in healthy controls, no such associations were observed in the TBI group despite lower GMV. This finding challenges the presumed role of GMV in slow-wave generation and morphology. [ABSTRACT FROM AUTHOR]

Published

2024

5. Gray matter atrophy and white matter lesions burden in delayed cognitive decline following carbon monoxide poisoning.

Author

Zhang, Yanli, Wang, Tianhong, Wang, Shuaiwen, Zhuang, Xin, Li, Jianlin, Guo, Shunlin, and Lei, Junqiang

Subjects

*CARBON monoxide poisoning, *GRAY matter (Nerve tissue), *WHITE matter (Nerve tissue), *COGNITION disorders, *SELF-poisoning, *DEFAULT mode network

Abstract

Gray matter (GM) atrophy and white matter (WM) lesions may contribute to cognitive decline in patients with delayed neurological sequelae (DNS) after carbon monoxide (CO) poisoning. However, there is currently a lack of evidence supporting this relationship. This study aimed to investigate the volume of GM, cortical thickness, and burden of WM lesions in 33 DNS patients with dementia, 24 DNS patients with mild cognitive impairment, and 51 healthy controls. Various methods, including voxel‐based, deformation‐based, surface‐based, and atlas‐based analyses, were used to examine GM structures. Furthermore, we explored the connection between GM volume changes, WM lesions burden, and cognitive decline. Compared to the healthy controls, both patient groups exhibited widespread GM atrophy in the cerebral cortices (for volume and cortical thickness), subcortical nuclei (for volume), and cerebellum (for volume) (p <.05 corrected for false discovery rate [FDR]). The total volume of GM atrophy in 31 subregions, which included the default mode network (DMN), visual network (VN), and cerebellar network (CN) (p <.05, FDR‐corrected), independently contributed to the severity of cognitive impairment (p <.05). Additionally, WM lesions impacted cognitive decline through both direct and indirect effects, with the latter mediated by volume reduction in 16 subregions of cognitive networks (p <.05). These preliminary findings suggested that both GM atrophy and WM lesions were involved in cognitive decline in DNS patients following CO poisoning. Moreover, the reduction in the volume of DMN, VN, and posterior CN nodes mediated the WM lesions‐induced cognitive decline. [ABSTRACT FROM AUTHOR]

Published

2024

6. Unraveling the link: white matter damage, gray matter atrophy and memory impairment in patients with subcortical ischemic vascular disease.

Author

Jing Huang, Runtian Cheng, Xiaoshuang Liu, Li Chen, and Tianyou Luo

Subjects

GRAY matter (Nerve tissue), WHITE matter (Nerve tissue), MEMORY disorders, VASCULAR diseases, BRAIN cortical thickness, AUDITORY perception, VISUAL memory

Abstract

Introduction: Prior MRI studies have shown that patients with subcortical ischemic vascular disease (SIVD) exhibited white matter damage, gray matter atrophy and memory impairment, but the specific characteristics and interrelationships of these abnormal changes have not been fully elucidated. Materials and methods: We collected the MRI data and memory scores from 29 SIVD patients with cognitive impairment (SIVD-CI), 29 SIVD patients with cognitive unimpaired (SIVD-CU) and 32 normal controls (NC). Subsequently, the thicknesses and volumes of the gray matter regions that are closely related to memory function were automatically assessed using FreeSurfer software. Then, the volume, fractional anisotropy (FA), mean diffusivity (MD), amplitude of low-frequency fluctuation (ALFF) and regional homogeneity (ReHo) values of white matter hyperintensity (WMH) region and normal-appearing white matter (NAWM) were obtained using SPM, DPARSF, and FSL software. Finally, the analysis of covariance, spearman correlation and mediation analysis were used to analyze data. Results: Compared with NC group, patients in SIVD-CI and SIVD-CU groups showed significantly abnormal volume, FA, MD, ALFF, and ReHo values of WMH region and NAWM, as well as significantly decreased volume and thickness values of gray matter regions, mainly including thalamus, middle temporal gyrus and hippocampal subfields such as cornu ammonis (CA) 1. These abnormal changes were significantly correlated with decreased visual, auditory and working memory scores. Compared with the SIVD-CU group, the significant reductions of the left CA2/3, right amygdala, right parasubiculum and NAWM volumes and the significant increases of the MD values in the WMH region and NAWM were found in the SIVD-CI group. And the increased MD values were significantly related to working memory scores. Moreover, the decreased CA1 and thalamus volumes mediated the correlations between the abnormal microstructure indicators in WMH region and the decreased memory scores in the SIVD-CI group. Conclusion: Patients with SIVD had structural and functional damages in both WMH and NAWM, along with specific gray matter atrophy, which were closely related to memory impairment, especially CA1 atrophy and thalamic atrophy. More importantly, the volumes of some temporomesial regions and the MD values of WMH regions and NAWM may be potentially helpful neuroimaging indicators for distinguishing between SIVD-CI and SIVD-CU patients. [ABSTRACT FROM AUTHOR]

Published

2024

7. Benefits of a mosaic approach for assessing cortical atrophy in individual multiple sclerosis patients.

Author

Tahedl, Marlene, Wiltgen, Tun, Voon, Cui Ci, Berthele, Achim, Kirschke, Jan S., Hemmer, Bernhard, Mühlau, Mark, Zimmer, Claus, and Wiestler, Benedikt

Subjects

*CEREBRAL atrophy, *NATALIZUMAB, *MULTIPLE sclerosis, *MOTOR neuron diseases, *MAGNETIC resonance imaging, *GRAY matter (Nerve tissue)

Abstract

Objective: Cortical gray matter (GM) atrophy plays a central role in multiple sclerosis (MS) pathology. However, it is not commonly assessed in clinical routine partly because a number of methodological problems hamper the development of a robust biomarker to quantify GM atrophy. In previous work, we have demonstrated the clinical utility of the "mosaic approach" (MAP) to assess individual GM atrophy in the motor neuron disease spectrum and frontotemporal dementia. In this study, we investigated the clinical utility of MAP in MS, comparing this novel biomarker to existing methods for computing GM atrophy in single patients. We contrasted the strategies based on correlations with established biomarkers reflecting MS disease burden. Methods: We analyzed T1‐weighted MPRAGE magnetic resonance imaging data from 465 relapsing‐remitting MS patients and 89 healthy controls. We inspected how variations of existing strategies to estimate individual GM atrophy ("standard approaches") as well as variations of MAP (i.e., different parcellation schemes) impact downstream analysis results, both on a group and an individual level. We interpreted individual cortical disease burden as single metric reflecting the fraction of significantly atrophic data points with respect to the control group. In addition, we evaluated the correlations to lesion volume (LV) and Expanded Disability Status Scale (EDSS). Results: We found that the MAP method yielded highest correlations with both LV and EDSS as compared to all other strategies. Although the parcellation resolution played a minor role in terms of absolute correlations with clinical variables, higher resolutions provided more clearly defined statistical brain maps which may facilitate clinical interpretability. Conclusion: This study provides evidence that MAP yields high potential for a clinically relevant biomarker in MS, outperforming existing methods to compute cortical disease burden in single patients. Of note, MAP outputs brain maps illustrating individual cortical disease burden which can be directly interpreted in daily clinical routine. [ABSTRACT FROM AUTHOR]

Published

2023

8. Benefits of a mosaic approach for assessing cortical atrophy in individual multiple sclerosis patients

Author

Marlene Tahedl, Tun Wiltgen, Cui Ci Voon, Achim Berthele, Jan S. Kirschke, Bernhard Hemmer, Mark Mühlau, Claus Zimmer, and Benedikt Wiestler

Subjects

biomarker, gray matter atrophy, individual MRI, MAP, mosaic‐based approach, multiple comparisons, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Objective Cortical gray matter (GM) atrophy plays a central role in multiple sclerosis (MS) pathology. However, it is not commonly assessed in clinical routine partly because a number of methodological problems hamper the development of a robust biomarker to quantify GM atrophy. In previous work, we have demonstrated the clinical utility of the “mosaic approach” (MAP) to assess individual GM atrophy in the motor neuron disease spectrum and frontotemporal dementia. In this study, we investigated the clinical utility of MAP in MS, comparing this novel biomarker to existing methods for computing GM atrophy in single patients. We contrasted the strategies based on correlations with established biomarkers reflecting MS disease burden. Methods We analyzed T1‐weighted MPRAGE magnetic resonance imaging data from 465 relapsing‐remitting MS patients and 89 healthy controls. We inspected how variations of existing strategies to estimate individual GM atrophy (“standard approaches”) as well as variations of MAP (i.e., different parcellation schemes) impact downstream analysis results, both on a group and an individual level. We interpreted individual cortical disease burden as single metric reflecting the fraction of significantly atrophic data points with respect to the control group. In addition, we evaluated the correlations to lesion volume (LV) and Expanded Disability Status Scale (EDSS). Results We found that the MAP method yielded highest correlations with both LV and EDSS as compared to all other strategies. Although the parcellation resolution played a minor role in terms of absolute correlations with clinical variables, higher resolutions provided more clearly defined statistical brain maps which may facilitate clinical interpretability. Conclusion This study provides evidence that MAP yields high potential for a clinically relevant biomarker in MS, outperforming existing methods to compute cortical disease burden in single patients. Of note, MAP outputs brain maps illustrating individual cortical disease burden which can be directly interpreted in daily clinical routine.

Published

2023

9. Computationally derived anatomic subtypes of behavioral variant frontotemporal dementia show temporal stability and divergent patterns of longitudinal atrophy

Author

Ranasinghe, Kamalini G, Toller, Gianina, Cobigo, Yann, Chiang, Kevin, Callahan, Patrick, Eliazer, Caleb, Kramer, Joel H, Rosen, Howard J, Miller, Bruce L, and Rankin, Katherine P

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Alzheimer's Disease Related Dementias (ADRD), Frontotemporal Dementia (FTD), Dementia, Neurosciences, Aging, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Acquired Cognitive Impairment, Rare Diseases, Brain Disorders, Neurodegenerative, 2.1 Biological and endogenous factors, Neurological, anatomic subtypes, behavioral variant frontotemporal dementia, disease progression, gray matter atrophy, longitudinal magnetic resonance imaging, neurodegenerative disease, Genetics, Biological psychology

Abstract

IntroductionBehavioral variant frontotemporal dementia (bvFTD) can be computationally divided into four distinct anatomic subtypes based on patterns of frontotemporal and subcortical atrophy. To more precisely predict disease trajectories of individual patients, the temporal stability of each subtype must be characterized.MethodsWe investigated the longitudinal stability of the four previously identified anatomic subtypes in 72 bvFTD patients. We also applied a voxel-wise mixed effects model to examine subtype differences in atrophy patterns across multiple timepoints.ResultsOur results demonstrate the stability of the anatomic subtypes at baseline and over time. While they had common salience network atrophy, each subtype showed distinctive baseline and longitudinal atrophy patterns.DiscussionRecognizing these anatomically heterogeneous subtypes and their different patterns of atrophy progression in early bvFTD will improve disease course prediction in individual patients. Longitudinal volumetric predictions based on these anatomic subtypes may be used as a more accurate endpoint in treatment trials.

Published

2021

10. Association between gray matter atrophy, cerebral hypoperfusion, and cognitive impairment in Alzheimer’s disease

Author

Haoyang Dong, Lining Guo, Hailei Yang, Wenshuang Zhu, Fang Liu, Yingying Xie, Yu Zhang, Kaizhong Xue, Qiang Li, Meng Liang, Nan Zhang, and Wen Qin

Subjects

Alzheimer’s disease, gray matter atrophy, hypoperfusion, magnetic resonance imaging, arterial spin labeling, cognitive impairment, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

BackgroundAlzheimer’s disease (AD) is one of the most severe neurodegenerative diseases leading to dementia in the elderly. Cerebral atrophy and hypoperfusion are two important pathophysiological characteristics. However, it is still unknown about the area-specific causal pathways between regional gray matter atrophy, cerebral hypoperfusion, and cognitive impairment in AD patients.MethodForty-two qualified AD patients and 49 healthy controls (HC) were recruited in this study. First, we explored voxel-wise inter-group differences in gray matter volume (GMV) and arterial spin labeling (ASL) -derived cerebral blood flow (CBF). Then we explored the voxel-wise associations between GMV and Mini-Mental State Examination (MMSE) score, GMV and CBF, and CBF and MMSE to identify brain targets contributing to cognitive impairment in AD patients. Finally, a mediation analysis was applied to test the causal pathways among atrophied GMV, hypoperfusion, and cognitive impairment in AD.ResultsVoxel-wise permutation test identified that the left middle temporal gyrus (MTG) had both decreased GMV and CBF in the AD. Moreover, the GMV of this region was positively correlated with MMSE and its CBF, and CBF of this region was also positively correlated with MMSE in AD (p

Published

2023

11. Study of gray matter atrophy pattern with subcortical ischemic vascular disease-vascular cognitive impairment no dementia based on structural magnetic resonance imaging

Author

Lin Tan, Jian Xing, Zhenqi Wang, Xiao Du, Ruidi Luo, Jianhang Wang, Jinyi Zhao, Weina Zhao, and Changhao Yin

Subjects

vascular cognitive impairment no dementia, subcortical ischemic cerebrovascular disease, structural magnetic resonance imaging, gray matter atrophy, dementia, neurodegeneration, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

ObjectiveThis study explored the structural imaging changes in patients with subcortical ischemic vascular disease (SIVD)-vascular cognitive impairment no dementia (VCIND) and the correlation between the changes in gray matter volume and the field of cognitive impairment to provide new targets for early diagnosis and treatment.MethodsOur study included 15 patients with SIVD-normal cognitive impairment (SIVD-NCI), 63 with SIVD-VCIND, 26 with SIVD-vascular dementia (SIVD-VD), and 14 normal controls (NC). T1-weighted images of all participants were collected, and DPABI and SPM12 software were used to process the gray matter of the four groups based on voxels. Fisher’s exact test, one-way ANOVA and Kruskal-Wallis H test were used to evaluate all clinical and demographic data and compare the characteristics of diencephalic gray matter atrophy in each group. Finally, the region of interest (ROI) of the SIVD-VCIND was extracted, and Pearson correlation analysis was performed between the ROI and the results of the neuropsychological scale.ResultsCompared to the NC, changes in gray matter atrophy were observed in the bilateral orbitofrontal gyrus, right middle temporal gyrus, superior temporal gyrus, and precuneus in the SIVD-VCIND. Gray matter atrophy was observed in the left cerebellar region 6, cerebellar crural region 1, bilateral thalamus, right precuneus, and calcarine in the SIVD-VD. Compared with the SIVD-VCIND, gray matter atrophy changes were observed in the bilateral thalamus in the SIVD-VD (p

Published

2023

12. Decreased nocturnal heart rate variability and potentially related brain regions in arteriosclerotic cerebral small vessel disease

Author

Miaoyi Zhang, Huan Yu, Weijun Tang, Ding Ding, Jie Tang, Na Liu, Yang Xue, Xue Ren, Langfeng Shi, and Jianhui Fu

Subjects

Arteriosclerotic cerebral small vessel disease, Heart rate variability, Nocturnal, Gray matter atrophy, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background To assess heart rate variability (HRV) among patients with arteriosclerotic cerebral small vessel disease (CSVD) by comparing with control subjects, and to determine whether HRV parameters were related to structural alterations in brain regions involved in autonomic regulation among CSVD patients. Methods We consecutively recruited subjects aged between 50 and 80 years who visited the Stroke Prevention Clinic of our hospital and have completed brain magnetic resonance imaging examination from September 1, 2018 to August 31, 2019. Polysomnography and synchronous analyses of HRV were then performed in all participants. Multivariable binary logistic regression was used to identify the relationship between HRV parameters and CSVD. Participants were invited to further undergo three-dimensional brain volume scan, and the voxel based morphometry (VBM) analysis was used to identify gray matter atrophy. Results Among 109 participants enrolled in this study, 63 were assigned to the arteriosclerotic CSVD group and 46 to the control group. Lower standard deviation of normal-to-normal intervals (SDNN, OR = 0.943, 95% CI 0.903 to 0.985, P = 0.009) and higher ratio of low to high frequency power (LF/HF, OR = 4.372, 95% CI 1.033 to 18.508, P = 0.045) during the sleep period were associated with CSVD, independent of traditional cerebrovascular risk factors and sleep disordered breathing. A number of 24 CSVD patients and 21 controls further underwent three-dimensional brain volume scan and VBM analysis. Based on VBM results, SDNN during the awake time (β = 0.544, 95% CI 0.211 to 0.877, P = 0.001) and the sleep period (β = 0.532, 95% CI 0.202 to 0.862, P = 0.001) were both positively related with gray matter volume within the right inferior frontal gyrus only among CSVD patients. Conclusions Decreased nocturnal HRV is associated with arteriosclerotic CSVD independent of traditional cerebrovascular risk factors and sleep disordered breathing. The structural atrophy of some brain regions associated with cardiac autonomic regulation sheds light on the potential relationship. Trial registration Trial registration number: ChiCTR1800017902 . Date of registration: 20 Aug 2018.

Published

2021

13. Neural Substrates of Poststroke Depression: Current Opinions and Methodology Trends.

Author

Pan, Chensheng, Li, Guo, Sun, Wenzhe, Miao, Jinfeng, Qiu, Xiuli, Lan, Yan, Wang, Yanyan, Wang, He, Zhu, Zhou, and Zhu, Suiqiang

Subjects

MENTAL depression, LARGE-scale brain networks, BRAIN damage, COMPUTATIONAL neuroscience, STROKE patients

Abstract

Poststroke depression (PSD), affecting about one-third of stroke survivors, exerts significant impact on patients' functional outcome and mortality. Great efforts have been made since the 1970s to unravel the neuroanatomical substrate and the brain-behavior mechanism of PSD. Thanks to advances in neuroimaging and computational neuroscience in the past two decades, new techniques for uncovering the neural basis of symptoms or behavioral deficits caused by focal brain damage have been emerging. From the time of lesion analysis to the era of brain networks, our knowledge and understanding of the neural substrates for PSD are increasing. Pooled evidence from traditional lesion analysis, univariate or multivariate lesion-symptom mapping, regional structural and functional analyses, direct or indirect connectome analysis, and neuromodulation clinical trials for PSD, to some extent, echoes the frontal-limbic theory of depression. The neural substrates of PSD may be used for risk stratification and personalized therapeutic target identification in the future. In this review, we provide an update on the recent advances about the neural basis of PSD with the clinical implications and trends of methodology as the main features of interest. [ABSTRACT FROM AUTHOR]

Published

2022

14. Beyond the Motor Cortex: Thalamic Iron Deposition Accounts for Disease Severity in Amyotrophic Lateral Sclerosis.

Author

Li, Qianwen, Zhu, Wenjia, Wen, Xinmei, Zang, Zhenxiang, Da, Yuwei, and Lu, Jie

Subjects

AMYOTROPHIC lateral sclerosis, MOTOR cortex, FRONTAL lobe, GRAY matter (Nerve tissue), MOTOR neurons

Abstract

Objective: Previous studies have reliably identified iron deposition in the motor cortex as potential pathogenesis of amyotrophic lateral sclerosis (ALS). Here, we intended to investigate iron deposition, gray matter (GM) atrophy, and their associations with disease severity in the motor cortex and the thalamus in patients with ALS. Methods: A total of 34 patients with ALS (age 51.31 ± 8.24 years, 23 males) and 34 nonneurological controls (age 50.96 ± 9.35 years, 19 males) were enrolled between 2018 and 2020. The Revised ALS Functional Rating Scale (ALSFRS-R) and the Penn upper motor neuron (UMN) score were measured. MRI data included quantitative susceptibility mapping (QSM) for iron deposition and three-dimensional (3D) T1 for gray matter volume. After a between-group comparison, Pearson's correlation coefficient was used for identifying correlations of iron deposition, GM volume, and clinical measurements. Results: The two-sample t -tests revealed increased iron deposition in the left precentral gyrus (peak voxel T = 4.78, P SVC = 0.03) and the thalamus (peak voxel: right: T = 6.38, P SVC < 0.001; left: T = 4.64, P SVC = 0.02) in patients with ALS. GM volume of the precentral gyrus (T = −2.42, P = 0.02) and the bilateral thalamus (T = −4.10, P < 0.001) were reduced. Negative correlations were found between the increased QSM values and the decreased GM volume (P < 0.04, one-tailed) in patients with ALS. Iron deposition in the left precentral gyrus was positively correlated with the UMN score (R = 0.40, P = 0.02) and the GM volume was negatively correlated with the UMN score (R = −0.48, P = 0.004). Negative correlation between thalamic iron deposition and the ALSFRS-R (R = −0.36, P = 0.04) score was observed. Discussion: Iron deposition in the thalamus, in addition to the motor cortex, is accompanied by GM atrophy and is associated with disease severity in patients with ALS, indicating that the thalamus is also a pathological region in patients with ALS. [ABSTRACT FROM AUTHOR]

Published

2022

15. Correlation of the Changes of Gray Matter Volume with Aβ Deposition and Learning and Memory Abilities in APP/PS1 Mice at Different Periods

Author

Yuhao ZHANG, Hao JIN, Xiufeng ZHANG, Shengxiang LIANG, Weilin LIU, Jing TAO, and Lidian CHEN

Subjects

Alzheimer's disease, learning and memory, dysfunction, entorhinal cortex, hippocampus, gray matter atrophy, β-amyloid protein, Medicine

Abstract

Objective:To analyze the correlation in the changes of cerebral gray matter volume and the ability of memory learning, and the deposition of β-amyloid protein (Aβ) in related brain regions of Alzheimer's disease (AD) double-transgenic APP/PS1 model mice, which is expected to provide reliable behavioral and imaging basis for probing the pathological features of AD animal models.Methods:A total of two groups mice were included in this study, including the wild type (WT) group and the APP/PS1 group, with 36 mice in each group. The C57-BL/6 mice were selected in the WT group, and APP/PS1 double transgenic mice were selected in the APP/PS1 group. The two groups were composed of mice of different ages of 2,6, and 12 months respectively, with 12 mice of each month in each group. The Morris water maze test (including location navigation test and spatial exploration test) was used to detect the spatial memory learning ability and spatial memory extraction ability of the two groups of mice, and the magnetic resonance T2-weighted imaging (MRI T2WI) scan was used to detect the changes of gray matter volume in the bilateral entorhinal cortex and hippocampus of mice. The brain paraffin sections of two groups of mice of different months were separated and prepared, and the Aβ deposition in bilateral entorhinal cortex and hippocampus of the two groups was detected by Thioflavine-s fluorescence staining, and the correlation between the changes of gray matter volume and memory learning ability and Aβ deposition in the corresponding brain area of the two groups was analyzed by Pearson correlation analysis.Results:①The results of Morris water maze test: compared with the WT group, there was no significant difference in the behavioral results of the 2-month-old mice in the APP/PS1 group, and the difference was not statistically significant (P>0.05); the escape latency of mice of the APP/PS1 group at the 6 and 12 month-old increased significantly, the number of crossing platforms of the APP/PS1 group at the 6 and 12 month-old decreased significantly, and the difference was statistically significant (PP>0.05); the volume of the entorhinal cortex of the APP/PS1 group at 6-month-old decreased significantly, and the volume of the entorhinal cortex and hippocampus of the APP/PS1 group at 12-month-old mice decreased significantly, the difference was statistically significant (Pr=-0.729, Pr=-0.643, Pr=0.705, Pr=0.719, Pr=-0.865, Pr=-0.885, P

Published

2020

16. Neural Substrates of Poststroke Depression: Current Opinions and Methodology Trends

Author

Chensheng Pan, Guo Li, Wenzhe Sun, Jinfeng Miao, Xiuli Qiu, Yan Lan, Yanyan Wang, He Wang, Zhou Zhu, and Suiqiang Zhu

Subjects

poststroke depression, neural substrate, lesion analysis, gray matter atrophy, regional brain activity, brain network, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Poststroke depression (PSD), affecting about one-third of stroke survivors, exerts significant impact on patients’ functional outcome and mortality. Great efforts have been made since the 1970s to unravel the neuroanatomical substrate and the brain-behavior mechanism of PSD. Thanks to advances in neuroimaging and computational neuroscience in the past two decades, new techniques for uncovering the neural basis of symptoms or behavioral deficits caused by focal brain damage have been emerging. From the time of lesion analysis to the era of brain networks, our knowledge and understanding of the neural substrates for PSD are increasing. Pooled evidence from traditional lesion analysis, univariate or multivariate lesion-symptom mapping, regional structural and functional analyses, direct or indirect connectome analysis, and neuromodulation clinical trials for PSD, to some extent, echoes the frontal-limbic theory of depression. The neural substrates of PSD may be used for risk stratification and personalized therapeutic target identification in the future. In this review, we provide an update on the recent advances about the neural basis of PSD with the clinical implications and trends of methodology as the main features of interest.

Published

2022

17. Beyond the Motor Cortex: Thalamic Iron Deposition Accounts for Disease Severity in Amyotrophic Lateral Sclerosis

Author

Qianwen Li, Wenjia Zhu, Xinmei Wen, Zhenxiang Zang, Yuwei Da, and Jie Lu

Subjects

amyotrophic lateral sclerosis (ALS), iron deposition, gray matter atrophy, motor cortex, thalamus, Neurology. Diseases of the nervous system, RC346-429

Abstract

ObjectivePrevious studies have reliably identified iron deposition in the motor cortex as potential pathogenesis of amyotrophic lateral sclerosis (ALS). Here, we intended to investigate iron deposition, gray matter (GM) atrophy, and their associations with disease severity in the motor cortex and the thalamus in patients with ALS.MethodsA total of 34 patients with ALS (age 51.31 ± 8.24 years, 23 males) and 34 nonneurological controls (age 50.96 ± 9.35 years, 19 males) were enrolled between 2018 and 2020. The Revised ALS Functional Rating Scale (ALSFRS-R) and the Penn upper motor neuron (UMN) score were measured. MRI data included quantitative susceptibility mapping (QSM) for iron deposition and three-dimensional (3D) T1 for gray matter volume. After a between-group comparison, Pearson's correlation coefficient was used for identifying correlations of iron deposition, GM volume, and clinical measurements.ResultsThe two-sample t-tests revealed increased iron deposition in the left precentral gyrus (peak voxel T = 4.78, PSVC = 0.03) and the thalamus (peak voxel: right: T = 6.38, PSVC < 0.001; left: T = 4.64, PSVC = 0.02) in patients with ALS. GM volume of the precentral gyrus (T = −2.42, P = 0.02) and the bilateral thalamus (T = −4.10, P < 0.001) were reduced. Negative correlations were found between the increased QSM values and the decreased GM volume (P < 0.04, one-tailed) in patients with ALS. Iron deposition in the left precentral gyrus was positively correlated with the UMN score (R = 0.40, P = 0.02) and the GM volume was negatively correlated with the UMN score (R = −0.48, P = 0.004). Negative correlation between thalamic iron deposition and the ALSFRS-R (R = −0.36, P = 0.04) score was observed.DiscussionIron deposition in the thalamus, in addition to the motor cortex, is accompanied by GM atrophy and is associated with disease severity in patients with ALS, indicating that the thalamus is also a pathological region in patients with ALS.

Published

2022

18. [Evaluation of the results of magnetic resonance imaging of the brain for cognitive impairment in patients with heart failure: A review].

Author

Shariya MA, Ustyuzhanin DV, Zhirov IV, Osmolovskaya YF, and Tereshchenko SN

Subjects

Humans, Neuropsychological Tests, Heart Failure complications, Heart Failure physiopathology, Magnetic Resonance Imaging methods, Cognitive Dysfunction etiology, Cognitive Dysfunction diagnosis, Cognitive Dysfunction physiopathology, Brain diagnostic imaging, Brain physiopathology

Abstract

Cognitive impairment is a very common comorbidity in patients with heart failure (HF). Patients with HF show signs of memory decline, difficulty concentrating, and attention deficits. Cognitive dysfunction in HF is associated with a poor prognosis. However, the diagnosis of cognitive impairment in heart failure has received insufficient attention in routine clinical practice. Neuropsychological screening tests are available to screen for cognitive impairment, but they are used infrequently. Therefore, it is of practical interest to search for magnetic resonance equivalents of cognitive disorders. The use of magnetic resonance imaging as a tool for identifying and quantifying neural correlates of cognitive functions is discussed.

Published

2024

19. Cortical lobar volume reductions associated with homocysteine-related subcortical brain atrophy and poorer cognition in healthy aging.

Author

Song H, Bharadwaj PK, Raichlen DA, Habeck CG, Grilli MD, Huentelman MJ, Hishaw GA, Trouard TP, and Alexander GE

Abstract

Homocysteine (Hcy) is a cardiovascular risk factor implicated in cognitive impairment and cerebrovascular disease but has also been associated with Alzheimer's disease. In 160 healthy older adults (mean age = 69.66 ± 9.95 years), we sought to investigate the association of cortical brain volume with white matter hyperintensity (WMH) burden and a previously identified Hcy-related multivariate network pattern showing reductions in subcortical gray matter (SGM) volumes of hippocampus and nucleus accumbens with relative preservation of basal ganglia. We additionally evaluated the potential role of these brain imaging markers as a series of mediators in a vascular brain pathway leading to age-related cognitive dysfunction in healthy aging. We found reductions in parietal lobar gray matter associated with the Hcy-SGM pattern, which was further associated with WMH burden. Mediation analyses revealed that slowed processing speed related to aging, but not executive functioning or memory, was mediated sequentially through increased WMH lesion volume, greater Hcy-SGM pattern expression, and then smaller parietal lobe volume. Together, these findings suggest that volume reductions in parietal gray matter associated with a pattern of Hcy-related SGM volume differences may be indicative of slowed processing speed in cognitive aging, potentially linking cardiovascular risk to an important aspect of cognitive dysfunction in healthy aging., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Song, Bharadwaj, Raichlen, Habeck, Grilli, Huentelman, Hishaw, Trouard and Alexander.)

Published

2024

20. Sex Differences in Brain and Cognition in de novo Parkinson's Disease

Author

Javier Oltra, Carme Uribe, Anna Campabadal, Anna Inguanzo, Gemma C. Monté-Rubio, Maria J. Martí, Yaroslau Compta, Francesc Valldeoriola, Carme Junque, and Barbara Segura

Subjects

Parkinson's disease, sex differences, magnetic resonance imaging, gray matter atrophy, cognitive impairment, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background and Objective: Brain atrophy and cognitive impairment in neurodegenerative diseases are influenced by sex. We aimed to investigate sex differences in brain atrophy and cognition in de novo Parkinson's disease (PD) patients.Methods: Clinical, neuropsychological and T1-weighted MRI data from 205 PD patients (127 males: 78 females) and 69 healthy controls (40 males: 29 females) were obtained from the PPMI dataset.Results: PD males had a greater motor and rapid eye movement sleep behavior disorder symptomatology than PD females. They also showed cortical thinning in postcentral and precentral regions, greater global cortical and subcortical atrophy and smaller volumes in thalamus, caudate, putamen, pallidum, hippocampus, and brainstem, compared with PD females. Healthy controls only showed reduced hippocampal volume in males compared to females. PD males performed worse than PD females in global cognition, immediate verbal recall, and mental processing speed. In both groups males performed worse than females in semantic verbal fluency and delayed verbal recall; as well as females performed worse than males in visuospatial function.Conclusions: Sex effect in brain and cognition is already evident in de novo PD not explained by age per se, being a relevant factor to consider in clinical and translational research in PD.

Published

2022

21. Multiomics Analysis of Structural Magnetic Resonance Imaging of the Brain and Cerebrospinal Fluid Metabolomics in Cognitively Normal and Impaired Adults.

Author

Eldridge, Ronald C., Uppal, Karan, Shokouhi, Mahsa, Smith, M. Ryan, Hu, Xin, Qin, Zhaohui S., Jones, Dean P., and Hajjar, Ihab

Subjects

MAGNETIC resonance imaging, CEREBROSPINAL fluid, BRAIN imaging, METABOLOMICS, GRAY matter (Nerve tissue), ULTRASONIC encephalography, AMINO acid metabolism, COGNITION disorders, BRAIN, ALZHEIMER'S disease, METABOLISM, CELLULAR signal transduction, NITROGEN, GENE expression profiling, MULTIOMICS, DESCRIPTIVE statistics, ALGORITHMS

Abstract

Introduction: Integrating brain imaging with large scale omics data may identify novel mechanisms of mild cognitive impairment (MCI) and early Alzheimer's disease (AD). We integrated and analyzed brain magnetic resonance imaging (MRI) with cerebrospinal fluid (CSF) metabolomics to elucidate metabolic mechanisms and create a "metabolic map" of the brain in prodromal AD. Methods: In 145 subjects (85 cognitively normal controls and 60 with MCI), we derived voxel-wise gray matter volume via whole-brain structural MRI and conducted high-resolution untargeted metabolomics on CSF. Using a data-driven approach consisting of partial least squares discriminant analysis, a multiomics network clustering algorithm, and metabolic pathway analysis, we described dysregulated metabolic pathways in CSF mapped to brain regions associated with MCI in our cohort. Results: The multiomics network algorithm clustered metabolites with contiguous imaging voxels into seven distinct communities corresponding to the following brain regions: hippocampus/parahippocampal gyrus (three distinct clusters), thalamus, posterior thalamus, parietal cortex, and occipital lobe. Metabolic pathway analysis indicated dysregulated metabolic activity in the urea cycle, and many amino acids (arginine, histidine, lysine, glycine, tryptophan, methionine, valine, glutamate, beta-alanine, and purine) was significantly associated with those regions (P < 0.05). Conclusion: By integrating CSF metabolomics data with structural MRI data, we linked specific AD-susceptible brain regions to disrupted metabolic pathways involving nitrogen excretion and amino acid metabolism critical for cognitive function. Our findings and analytical approach may extend drug and biomarker research toward more multiomics approaches. [ABSTRACT FROM AUTHOR]

Published

2022

22. Sex Differences in Brain and Cognition in de novo Parkinson's Disease.

Author

Oltra, Javier, Uribe, Carme, Campabadal, Anna, Inguanzo, Anna, Monté-Rubio, Gemma C., Martí, Maria J., Compta, Yaroslau, Valldeoriola, Francesc, Junque, Carme, and Segura, Barbara

Subjects

PARKINSON'S disease, RAPID eye movement sleep, CEREBRAL atrophy, CEREBRAL cortical thinning, BRAIN, COGNITION disorders, MEMORY, THOUGHT & thinking, HIPPOCAMPUS (Brain), MAGNETIC resonance imaging, CASE-control method, SEX distribution, ATROPHY, SLEEP disorders, QUESTIONNAIRES

Abstract

Background and Objective: Brain atrophy and cognitive impairment in neurodegenerative diseases are influenced by sex. We aimed to investigate sex differences in brain atrophy and cognition in de novo Parkinson's disease (PD) patients. Methods: Clinical, neuropsychological and T1-weighted MRI data from 205 PD patients (127 males: 78 females) and 69 healthy controls (40 males: 29 females) were obtained from the PPMI dataset. Results: PD males had a greater motor and rapid eye movement sleep behavior disorder symptomatology than PD females. They also showed cortical thinning in postcentral and precentral regions, greater global cortical and subcortical atrophy and smaller volumes in thalamus, caudate, putamen, pallidum, hippocampus, and brainstem, compared with PD females. Healthy controls only showed reduced hippocampal volume in males compared to females. PD males performed worse than PD females in global cognition, immediate verbal recall, and mental processing speed. In both groups males performed worse than females in semantic verbal fluency and delayed verbal recall; as well as females performed worse than males in visuospatial function. Conclusions: Sex effect in brain and cognition is already evident in de novo PD not explained by age per se , being a relevant factor to consider in clinical and translational research in PD. [ABSTRACT FROM AUTHOR]

Published

2022

23. Decreased nocturnal heart rate variability and potentially related brain regions in arteriosclerotic cerebral small vessel disease.

Author

Zhang, Miaoyi, Yu, Huan, Tang, Weijun, Ding, Ding, Tang, Jie, Liu, Na, Xue, Yang, Ren, Xue, Shi, Langfeng, and Fu, Jianhui

Subjects

*CEREBRAL small vessel diseases, *HEART beat, *MAGNETIC resonance imaging, *PREFRONTAL cortex, *CEREBRAL atrophy, *ATHEROSCLEROTIC plaque, *BRAIN, *AUTONOMIC nervous system, *DISEASE complications

Abstract

Background: To assess heart rate variability (HRV) among patients with arteriosclerotic cerebral small vessel disease (CSVD) by comparing with control subjects, and to determine whether HRV parameters were related to structural alterations in brain regions involved in autonomic regulation among CSVD patients.Methods: We consecutively recruited subjects aged between 50 and 80 years who visited the Stroke Prevention Clinic of our hospital and have completed brain magnetic resonance imaging examination from September 1, 2018 to August 31, 2019. Polysomnography and synchronous analyses of HRV were then performed in all participants. Multivariable binary logistic regression was used to identify the relationship between HRV parameters and CSVD. Participants were invited to further undergo three-dimensional brain volume scan, and the voxel based morphometry (VBM) analysis was used to identify gray matter atrophy.Results: Among 109 participants enrolled in this study, 63 were assigned to the arteriosclerotic CSVD group and 46 to the control group. Lower standard deviation of normal-to-normal intervals (SDNN, OR = 0.943, 95% CI 0.903 to 0.985, P = 0.009) and higher ratio of low to high frequency power (LF/HF, OR = 4.372, 95% CI 1.033 to 18.508, P = 0.045) during the sleep period were associated with CSVD, independent of traditional cerebrovascular risk factors and sleep disordered breathing. A number of 24 CSVD patients and 21 controls further underwent three-dimensional brain volume scan and VBM analysis. Based on VBM results, SDNN during the awake time (β = 0.544, 95% CI 0.211 to 0.877, P = 0.001) and the sleep period (β = 0.532, 95% CI 0.202 to 0.862, P = 0.001) were both positively related with gray matter volume within the right inferior frontal gyrus only among CSVD patients.Conclusions: Decreased nocturnal HRV is associated with arteriosclerotic CSVD independent of traditional cerebrovascular risk factors and sleep disordered breathing. The structural atrophy of some brain regions associated with cardiac autonomic regulation sheds light on the potential relationship.Trial Registration: Trial registration number: ChiCTR1800017902 . Date of registration: 20 Aug 2018. [ABSTRACT FROM AUTHOR]

Published

2021

24. Computationally derived anatomic subtypes of behavioral variant frontotemporal dementia show temporal stability and divergent patterns of longitudinal atrophy

Author

Kamalini G. Ranasinghe, Gianina Toller, Yann Cobigo, Kevin Chiang, Patrick Callahan, Caleb Eliazer, Joel H. Kramer, Howard J. Rosen, Bruce L. Miller, and Katherine P. Rankin

Subjects

anatomic subtypes, behavioral variant frontotemporal dementia, disease progression, gray matter atrophy, longitudinal magnetic resonance imaging, neurodegenerative disease, Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6

Abstract

Abstract Introduction Behavioral variant frontotemporal dementia (bvFTD) can be computationally divided into four distinct anatomic subtypes based on patterns of frontotemporal and subcortical atrophy. To more precisely predict disease trajectories of individual patients, the temporal stability of each subtype must be characterized. Methods We investigated the longitudinal stability of the four previously identified anatomic subtypes in 72 bvFTD patients. We also applied a voxel‐wise mixed effects model to examine subtype differences in atrophy patterns across multiple timepoints. Results Our results demonstrate the stability of the anatomic subtypes at baseline and over time. While they had common salience network atrophy, each subtype showed distinctive baseline and longitudinal atrophy patterns. Discussion Recognizing these anatomically heterogeneous subtypes and their different patterns of atrophy progression in early bvFTD will improve disease course prediction in individual patients. Longitudinal volumetric predictions based on these anatomic subtypes may be used as a more accurate endpoint in treatment trials.

Published

2021

25. Frontotemporal dementia subtypes based on behavioral inhibition deficits

Author

Valérie Godefroy, Delphine Tanguy, Arabella Bouzigues, Idil Sezer, Johan Ferrand‐Verdejo, Carole Azuar, David Bendetowicz, Guilhem Carle, Armelle Rametti‐Lacroux, Stéphanie Bombois, Emmanuel Cognat, Pierre Jannin, Xavier Morandi, Isabelle Le Ber, Richard Levy, Bénédicte Batrancourt, and Raffaella Migliaccio

Subjects

compulsivity, disinhibition, ecological design, frontotemporal dementia, gray matter atrophy, subtypes, Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6

Abstract

Abstract Introduction We aimed to investigate phenotypic heterogeneity in the behavioral variant of frontotemporal dementia (bvFTD) through assessment of inhibition deficits. Methods We assessed occurrences of 16 behavioral inhibition deficits from video recordings of 15 bvFTD patients (early stage) and 15 healthy controls (HC) in an ecological setting. We extracted dimensions of inhibition deficit and analyzed their correlations with cognitive and clinical measures. Using these dimensions, we isolated patient clusters whose atrophy patterns were explored. Results After identifying two patterns of inhibition deficit (compulsive automatic behaviors and socially unconventional behaviors), we isolated three behavioral clusters with distinct atrophy patterns. BvFTD‐G0 (N = 3), an outlier group, showed severe behavioral disturbances and more severe ventromedial prefrontal cortex/orbitofrontal cortex atrophy. Compared to bvFTD‐G1 (N = 6), bvFTD‐G2 (N = 6) presented higher anxiety and depression along with less diffuse atrophy especially in midline regions. Discussion Identifying clinico‐anatomical profiles through behavior observation could help to stratify bvFTD patients for adapted treatments.

Published

2021

26. Changes Over Time of Diffusion MRI in the White Matter of Aging Brain, a Good Predictor of Verbal Recall

Author

Renaud Nicolas, Bassem Hiba, Bixente Dilharreguy, Elodie Barse, Marion Baillet, Manon Edde, Amandine Pelletier, Olivier Periot, Catherine Helmer, Michele Allard, Jean-François Dartigues, Hélène Amieva, Karine Pérès, Philippe Fernandez, and Gwénaëlle Catheline

Subjects

verbal recall, white matter, cognitive aging predictors, gray matter atrophy, white matter hyperintensities (WMH), diffusion MRI imaging, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Objective: Extensive research using water-diffusion MRI reported age-related modifications of cerebral White Matter (WM). Moreover, water-diffusion parameter modifications have been frequently associated with cognitive performances in the elderly sample, reinforcing the idea of aging inducing microstructural disconnection of the brain which in turn impacts cognition. However, only few studies really assessed over-time modifications of these parameters and their relationship with episodic memory outcome of elderly.Materials and Methods: One-hundred and thirty elderly subjects without dementia (74.1 ± 4.1 years; 47% female) were included in this study. Diffusion tensor imaging (DTI) was performed at two-time points (3.49 ± 0.68 years apart), allowing the assessment of changes in water-diffusion parameters over time using a specific longitudinal pipeline. White matter hyperintensity (WMH) burden and gray matter (GM) atrophy were also measured on FLAIR and T1-weighted sequences collected during these two MRI sessions. Free and cued verbal recall scores assessed at the last follow-up of the cohort were used as episodic memory outcome. Changes in water-diffusion parameters over time were included in serial linear regression models to predict retrieval or storage ability of elderly.Results: GM atrophy and an increase in mean diffusivity (MD) and WMH load between the two-time points were observed. The increase in MD was significantly correlated with WMH load and the different memory scores. In models accounting for the baseline cognitive score, GM atrophy, or WMH load, MD changes still significantly predict free verbal recall, and not total verbal recall, suggesting the specific association with the retrieval deficit in healthy aging.Conclusion: In elderly, microstructural WM changes are good predictors of lower free verbal recall performances. Moreover, this contribution is not only driven by WMH load increase. This last observation is in line with studies reporting early water-diffusion modification in WM tissue during aging, resulting lately in the appearance of WMH on conventional MRI.

Published

2020

27. Gray Matter Atrophy in Parkinson’s Disease and the Parkinsonian Variant of Multiple System Atrophy: A Combined ROI- and Voxel-Based Morphometric Study

Author

Xiaorui Cui, Lan Li, Lei Yu, Huijuan Xing, Hong Chang, Li Zhao, Jin Qian, Qingwei Song, Shiyu Zhou, and Chunbo Dong

Subjects

Parkinson’s Disease, Multiple System Atrophy, Magnetic Resonance Imaging, Regions of Interest, Voxel-Based Morphometry, Gray Matter Atrophy, Medicine (General), R5-920

Abstract

OBJECTIVES: Parkinson’s disease (PD) and the parkinsonian variant of multiple system atrophy (MSA-P) are distinct neurodegenerative disorders that share similar clinical features of parkinsonism. The morphological alterations of these diseases have yet to be understood. The purpose of this study was to evaluate gray matter atrophy in PD and MSA-P using regions of interest (ROI)-based measurements and voxel-based morphometry (VBM). METHODS: We studied 41 patients with PD, 20 patients with MSA-P, and 39 controls matched for age, sex, and handedness using an improved T1-weighted sequence that eased gray matter segmentation. The gray matter volumes were measured using ROI and VBM. RESULTS: ROI volumetric measurements showed significantly reduced bilateral putamen volumes in MSA-P patients compared with those in PD patients and controls (p

Published

2020

28. The impact of education on cortical thickness in amyloid-negative subcortical vascular dementia: cognitive reserve hypothesis

Author

Na-Yeon Jung, Hanna Cho, Yeo Jin Kim, Hee Jin Kim, Jong Min Lee, Seongbeom Park, Sung Tae Kim, Eun-Joo Kim, Jae Seung Kim, Seung Hwan Moon, Jae-Hong Lee, Michael Ewers, Duk L Na, and Sang Won Seo

Subjects

Cognitive reserve, Gray matter atrophy, Education, Subcortical vascular dementia, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background The protective effect of education has been well established in Alzheimer’s disease, whereas its role in patients with isolated cerebrovascular diseases remains unclear. We examined the correlation of education with cortical thickness and cerebral small vessel disease markers in patients with pure subcortical vascular mild cognitive impairment (svMCI) and patients with pure subcortical vascular dementia (SVaD). Methods We analyzed 45 patients with svMCI and 47 patients with SVaD with negative results on Pittsburgh compound B positron emission tomographic imaging who underwent structural brain magnetic resonance imaging. The main outcome was cortical thickness measured using surface-based morphometric analysis. We also assessed the volumes of white matter hyperintensities (WMH) and numbers of lacunes as other outcomes. To investigate the correlation of education with cortical thickness, WMH volume, and number of lacunes, multiple linear regression analyses were performed after controlling for covariates, including Mini Mental State Examination, in the svMCI and SVaD groups. Results In the SVaD group, higher education was correlated with more severe cortical thinning in the bilateral dorsolateral frontal, left medial frontal, and parahippocampal areas, whereas there was no correlation of education with cortical thickness in the svMCI group. There was no correlation between education and cerebral small vessel disease, including WMH and lacunes, in both patients with svMCI and patients with SVaD. Conclusions Our findings suggest that the compensatory effects of education on cortical thinning apply to patients with SVaD, which might be explained by the cognitive reserve hypothesis.

Published

2018

29. Concordance and discordance between brain perfusion and atrophy in frontotemporal dementia.

Author

Shimizu, Soichiro, Zhang, Yu, Laxamana, Joel, Miller, Bruce L, Kramer, Joel H, Weiner, Michael W, and Schuff, Norbert

Subjects

Brain, Frontal Lobe, Prefrontal Cortex, Humans, Atrophy, Spin Labels, Magnetic Resonance Imaging, Cross-Sectional Studies, Cerebrovascular Circulation, Middle Aged, Female, Male, Functional Laterality, Perfusion Imaging, Frontotemporal Dementia, Frontotemporal dementia, MRI, Cerebral blood flow, Gray matter atrophy, Statistical parametric mapping, Medical and Health Sciences, Psychology and Cognitive Sciences, Experimental Psychology

Abstract

The aim of this study was to determine if a dissociation between reduced cerebral perfusion and gray matter (GM) atrophy exists in frontotemporal dementia (FTD). The study included 28 patients with FTD and 29 cognitive normal (CN) subjects. All subjects had MRI at 1.5 T, including T1-weighted structural and arterial spin labeling (ASL) perfusion imaging. Non-parametric concordance/discordance tests revealed that GM atrophy without hypoperfusion occurs in the premotor cortex in FTD whereas concordant GM atrophy and hypoperfusion changes are found in the right prefrontal cortex and bilateral medial frontal lobe. The results suggest that damage of brain function in FTD, assessed by ASL perfusion, can vary regionally despite widespread atrophy. Detection of discordance between brain perfusion and structure in FTD might aid diagnosis and staging of the disease.

Published

2010

30. Characterizing Gray Matter Atrophy and Preservation in Experimental Autoimmune Encephalomyelitis

Author

Meyer, Cassandra

Subjects

Neurosciences, Gray matter atrophy, Multiple Sclerosis, neurodegeneration, neuroprotection, sex differences

Abstract

Gray matter (GM) atrophy is considered one of the best predictors of disability accumulation in multiple sclerosis (MS) yet the mechanisms underlying its progression are poorly understood. Currently, there are no directly neuroprotective therapies in MS that can halt the progression of GM atrophy. While GM atrophy has been established in the most commonly used mouse model for MS, experimental autoimmune encephalomyelitis (EAE), there is a lack of studies directly investigating associated pathologies of GM atrophy and methods of sparing GM volume. The projects in this dissertation were designed with the goal of characterizing changes in GM volume and associated pathology. In the second chapter, I investigated baseline sex differences in the C57BL/6 mouse brain. This was an important step in establishing the use of magnetic resonance imaging (MRI) and voxel-based morphometry (VBM) to identify differences in GM volume. Moreover, it highlighted the importance of performing experimental analyses within sex as we determined that differences exist in the brain in healthy mice. In the third chapter, I sought to utilize VBM to localize atrophy in vivo in a chronic mouse model of EAE and to identify the spatial relationship between downstream axonal damage in the spinal cord and gray matter loss. I found substantial GM volume loss throughout the brain particularly within the cortex, caudoputamen, and thalamus during EAE. Further, I found axonal damage in the spinal cord was negatively correlated to GM volume in motor and sensorimotor regions of the cerebral cortex. In the fourth chapter, I describe a network of pathology associated with GM atrophy that is disrupted by estriol treatment. I further identified ligation of ERbeta as method of inducing remyelination in GM. Lastly, in chapter five, I used VBM to identify sex differences in GM atrophy during EAE. Using voxel-wise regression analysis I found a sex-specific relationship between disability and GM atrophy in the somatosensory cortex in males. I further found evidence of increased neuronal loss and increased axonal transection in males with EAE compared to their healthy controls than females with EAE compared to their healthy controls.Localizing atrophy and related pathology will allow for us to investigate the molecular underpinnings of GM volume loss and potentially lead to the development of better neuroprotective therapies for patients with MS

Published

2021

31. Cortical thickness as predictor of response to exercise in people with Parkinson's disease.

Author

Silva‐Batista, Carla, Ragothaman, Anjanibhargavi, Mancini, Martina, Carlson‐Kuhta, Patricia, Harker, Graham, Jung, Se Hee, Nutt, John G., Fair, Damien A, Horak, Fay B., and Miranda‐Domínguez, Oscar

Subjects

*PARKINSON'S disease, *WALKING speed, *GRAY matter (Nerve tissue), *VISUAL cortex, *EXERCISE

Abstract

We previously showed that dual‐task cost (DTC) on gait speed in people with Parkinson's disease (PD) improved after 6 weeks of the Agility Boot Camp with Cognitive Challenge (ABC‐C) exercise program. Since deficits in dual‐task gait speed are associated with freezing of gait and gray matter atrophy, here we performed preplanned secondary analyses to answer two questions: (a) Do people with PD who are freezers present similar improvements compared to nonfreezers in DTC on gait speed with ABC‐C? (b) Can cortical thickness at baseline predict responsiveness to the ABC‐C? The DTC from 39 freezers and 43 nonfreezers who completed 6 weeks of ABC‐C were analyzed. A subset of 51 participants (21 freezers and 30 nonfreezers) with high quality imaging data were used to characterize relationships between baseline cortical thickness and delta (Δ) DTC on gait speed following ABC‐C. Freezers showed larger ΔDTC on gait speed than nonfreezers with ABC‐C program (p <.05). Cortical thickness in visual and fronto‐parietal areas predicted ΔDTC on gait speed in freezers, whereas sensorimotor‐lateral thickness predicted ΔDTC on gait speed in nonfreezers (p <.05). When matched for motor severity, visual cortical thickness was a common predictor of response to exercise in all individuals, presenting the largest effect size. In conclusion, freezers improved gait automaticity even more than nonfreezers from cognitively challenging exercise. DTC on gait speed improvement was associated with larger baseline cortical thickness from different brain areas, depending on freezing status, but visual cortex thickness showed the most robust relationship with exercise‐induced improvements in DTC. [ABSTRACT FROM AUTHOR]

Published

2021

32. Frontotemporal dementia subtypes based on behavioral inhibition deficits.

Author

Godefroy, Valérie, Tanguy, Delphine, Bouzigues, Arabella, Sezer, Idil, Ferrand-Verdejo, Johan, Azuar, Carole, Bendetowicz, David, Carle, Guilhem, Rametti-Lacroux, Armelle, Bombois, Stéphanie, Cognat, Emmanuel, Jannin, Pierre, Morandi, Xavier, Le Ber, Isabelle, Levy, Richard, Batrancourt, Bénédicte, and Migliaccio, Raffaella

Subjects

FRONTOTEMPORAL dementia, ATROPHY, GRAY matter (Nerve tissue), COMPULSIVE behavior, FRONTAL lobe diseases

Abstract

Introduction: We aimed to investigate phenotypic heterogeneity in the behavioral variant of frontotemporal dementia (bvFTD) through assessment of inhibition deficits. Methods: We assessed occurrences of 16 behavioral inhibition deficits from video recordings of 15 bvFTD patients (early stage) and 15 healthy controls (HC) in an ecological setting. We extracted dimensions of inhibition deficit and analyzed their correlations with cognitive and clinical measures. Using these dimensions, we isolated patient clusters whose atrophy patterns were explored. Results: After identifying two patterns of inhibition deficit (compulsive automatic behaviors and socially unconventional behaviors), we isolated three behavioral clusters with distinct atrophy patterns. BvFTD-G0 (N=3), an outlier group, showed severe behavioral disturbances and more severe ventromedial prefrontal cortex/orbitofrontal cortex atrophy. Compared to bvFTD-G1 (N = 6), bvFTD-G2 (N = 6) presented higher anxiety and depression along with less diffuse atrophy especially in midline regions. Discussion: Identifying clinico-anatomical profiles through behavior observation could help to stratify bvFTD patients for adapted treatments. [ABSTRACT FROM AUTHOR]

Published

2021

33. Direct cortical thickness estimation using deep learning‐based anatomy segmentation and cortex parcellation.

Author

Rebsamen, Michael, Rummel, Christian, Reyes, Mauricio, Wiest, Roland, and McKinley, Richard

Subjects

*COMPUTER-assisted image analysis (Medicine), *ANATOMY education, *ANATOMY, *NEUROLOGICAL disorders, *GRAY matter (Nerve tissue), *NEURODEGENERATION

Abstract

Accurate and reliable measures of cortical thickness from magnetic resonance imaging are an important biomarker to study neurodegenerative and neurological disorders. Diffeomorphic registration‐based cortical thickness (DiReCT) is a known technique to derive such measures from non‐surface‐based volumetric tissue maps. ANTs provides an open‐source method for estimating cortical thickness, derived by applying DiReCT to an atlas‐based segmentation. In this paper, we propose DL+DiReCT, a method using high‐quality deep learning‐based neuroanatomy segmentations followed by DiReCT, yielding accurate and reliable cortical thickness measures in a short time. We evaluate the methods on two independent datasets and compare the results against surface‐based measures from FreeSurfer. Good correlation of DL+DiReCT with FreeSurfer was observed (r =.887) for global mean cortical thickness compared to ANTs versus FreeSurfer (r =.608). Experiments suggest that both DiReCT‐based methods had higher sensitivity to changes in cortical thickness than Freesurfer. However, while ANTs showed low scan‐rescan robustness, DL+DiReCT showed similar robustness to Freesurfer. Effect‐sizes for group‐wise differences of healthy controls compared to individuals with dementia were highest with the deep learning‐based segmentation. DL+DiReCT is a promising combination of a deep learning‐based method with a traditional registration technique to detect subtle changes in cortical thickness. [ABSTRACT FROM AUTHOR]

Published

2020

34. Changes Over Time of Diffusion MRI in the White Matter of Aging Brain, a Good Predictor of Verbal Recall.

Author

Nicolas, Renaud, Hiba, Bassem, Dilharreguy, Bixente, Barse, Elodie, Baillet, Marion, Edde, Manon, Pelletier, Amandine, Periot, Olivier, Helmer, Catherine, Allard, Michele, Dartigues, Jean-François, Amieva, Hélène, Pérès, Karine, Fernandez, Philippe, and Catheline, Gwénaëlle

Subjects

DIFFUSION magnetic resonance imaging, DIFFUSION tensor imaging, MATTER

Abstract

Objective : Extensive research using water-diffusion MRI reported age-related modifications of cerebral White Matter (WM). Moreover, water-diffusion parameter modifications have been frequently associated with cognitive performances in the elderly sample, reinforcing the idea of aging inducing microstructural disconnection of the brain which in turn impacts cognition. However, only few studies really assessed over-time modifications of these parameters and their relationship with episodic memory outcome of elderly. Materials and Methods : One-hundred and thirty elderly subjects without dementia (74.1 ± 4.1 years; 47% female) were included in this study. Diffusion tensor imaging (DTI) was performed at two-time points (3.49 ± 0.68 years apart), allowing the assessment of changes in water-diffusion parameters over time using a specific longitudinal pipeline. White matter hyperintensity (WMH) burden and gray matter (GM) atrophy were also measured on FLAIR and T1-weighted sequences collected during these two MRI sessions. Free and cued verbal recall scores assessed at the last follow-up of the cohort were used as episodic memory outcome. Changes in water-diffusion parameters over time were included in serial linear regression models to predict retrieval or storage ability of elderly. Results : GM atrophy and an increase in mean diffusivity (MD) and WMH load between the two-time points were observed. The increase in MD was significantly correlated with WMH load and the different memory scores. In models accounting for the baseline cognitive score, GM atrophy, or WMH load, MD changes still significantly predict free verbal recall, and not total verbal recall, suggesting the specific association with the retrieval deficit in healthy aging. Conclusion : In elderly, microstructural WM changes are good predictors of lower free verbal recall performances. Moreover, this contribution is not only driven by WMH load increase. This last observation is in line with studies reporting early water-diffusion modification in WM tissue during aging, resulting lately in the appearance of WMH on conventional MRI. [ABSTRACT FROM AUTHOR]

Published

2020

35. Odor Identification and Regional Gray Matter Atrophy in Patients with Alzheimer’s Disease, Parkinson’s Disease, and the Healthy Elderly: A Cross-Sectional Structural MRI Study

Author

Simonas Jesmanas, Rymantė Gleiznienė, Mindaugas Baranauskas, Vaidas Matijošaitis, and Daiva Rastenytė

Subjects

odor identification, Alzheimer’s disease, Parkinson’s disease, gray matter atrophy, orbitofrontal cortex, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Multiple associations between impaired olfactory performance and regional cortical and deep gray matter atrophy have been reported in separate studies of patients with Alzheimer’s disease (AD), Parkinson’s disease (PD), and of the healthy elderly. We aimed to evaluate such possible associations among these populations in a unified manner. Twenty AD, twenty PD patients’ and twenty healthy age- and sex-matched controls’ odor identification performance was assessed with the Lithuanian adaptation of the Sniffin’ Sticks 12 odor identification test, followed by morphometric gray matter analysis by MRI using FreeSurfer. AD patients had significantly lower cognitive performance than both PD patients and the healthy elderly, as evaluated with the Mini-Mental State Examination (MMSE). Odor identification performance was significantly worse in AD and PD patients compared with the healthy elderly; AD patients performed slightly worse than PD patients, but the difference was not statistically significant. Among patients with AD, worse odor identification performance was initially correlated with atrophy of multiple cortical and deep gray matter regions known to be involved in olfactory processing, however, only two measures—decreased thicknesses of the right medial and left lateral orbitofrontal cortices—remained significant after adjustment for possible confounders (age, MMSE score, and global cortical thickness). Among patients with PD and the healthy elderly we found no similar statistically significant correlations. Our findings support the key role of the orbitofrontal cortex in odor identification among patients with AD, and suggest that correlations between impaired odor identification performance and regional gray matter atrophy may be relatively more pronounced in AD rather than in PD.

Published

2021

36. Unraveling the link: white matter damage, gray matter atrophy and memory impairment in patients with subcortical ischemic vascular disease.

Author

Huang J, Cheng R, Liu X, Chen L, and Luo T

Abstract

Introduction: Prior MRI studies have shown that patients with subcortical ischemic vascular disease (SIVD) exhibited white matter damage, gray matter atrophy and memory impairment, but the specific characteristics and interrelationships of these abnormal changes have not been fully elucidated., Materials and Methods: We collected the MRI data and memory scores from 29 SIVD patients with cognitive impairment (SIVD-CI), 29 SIVD patients with cognitive unimpaired (SIVD-CU) and 32 normal controls (NC). Subsequently, the thicknesses and volumes of the gray matter regions that are closely related to memory function were automatically assessed using FreeSurfer software. Then, the volume, fractional anisotropy (FA), mean diffusivity (MD), amplitude of low-frequency fluctuation (ALFF) and regional homogeneity (ReHo) values of white matter hyperintensity (WMH) region and normal-appearing white matter (NAWM) were obtained using SPM, DPARSF, and FSL software. Finally, the analysis of covariance, spearman correlation and mediation analysis were used to analyze data., Results: Compared with NC group, patients in SIVD-CI and SIVD-CU groups showed significantly abnormal volume, FA, MD, ALFF, and ReHo values of WMH region and NAWM, as well as significantly decreased volume and thickness values of gray matter regions, mainly including thalamus, middle temporal gyrus and hippocampal subfields such as cornu ammonis (CA) 1. These abnormal changes were significantly correlated with decreased visual, auditory and working memory scores. Compared with the SIVD-CU group, the significant reductions of the left CA2/3, right amygdala, right parasubiculum and NAWM volumes and the significant increases of the MD values in the WMH region and NAWM were found in the SIVD-CI group. And the increased MD values were significantly related to working memory scores. Moreover, the decreased CA1 and thalamus volumes mediated the correlations between the abnormal microstructure indicators in WMH region and the decreased memory scores in the SIVD-CI group., Conclusion: Patients with SIVD had structural and functional damages in both WMH and NAWM, along with specific gray matter atrophy, which were closely related to memory impairment, especially CA1 atrophy and thalamic atrophy. More importantly, the volumes of some temporomesial regions and the MD values of WMH regions and NAWM may be potentially helpful neuroimaging indicators for distinguishing between SIVD-CI and SIVD-CU patients., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Huang, Cheng, Liu, Chen and Luo.)

Published

2024

37. Feeling How Old I Am: Subjective Age Is Associated With Estimated Brain Age

Author

Seyul Kwak, Hairin Kim, Jeanyung Chey, and Yoosik Youm

Subjects

subjective age, self-perceptions of aging, gray matter atrophy, VBM, brain age, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

While the aging process is a universal phenomenon, people perceive and experience one’s aging considerably differently. Subjective age (SA), referring to how individuals experience themselves as younger or older than their actual age, has been highlighted as an important predictor of late-life health outcomes. However, it is unclear whether and how SA is associated with the neurobiological process of aging. In this study, 68 healthy older adults underwent a SA survey and magnetic resonance imaging (MRI) scans. T1-weighted brain images of open-access datasets were utilized to construct a model for age prediction. We utilized both voxel-based morphometry (VBM) and age-prediction modeling techniques to explore whether the three groups of SA (i.e., feels younger, same, or older than actual age) differed in their regional gray matter (GM) volumes, and predicted brain age. The results showed that elderly individuals who perceived themselves as younger than their real age showed not only larger GM volume in the inferior frontal gyrus and the superior temporal gyrus, but also younger predicted brain age. Our findings suggest that subjective experience of aging is closely related to the process of brain aging and underscores the neurobiological mechanisms of SA as an important marker of late-life neurocognitive health.

Published

2018

38. Feeling How Old I Am: Subjective Age Is Associated With Estimated Brain Age.

Author

Kwak, Seyul, Kim, Hairin, Chey, Jeanyung, and Youm, Yoosik

Subjects

PHYSIOLOGICAL aspects of aging, BRAIN physiology, SELF-perception, GRAY matter (Nerve tissue), VOXEL-based morphometry

Abstract

While the aging process is a universal phenomenon, people perceive and experience one's aging considerably differently. Subjective age (SA), referring to how individuals experience themselves as younger or older than their actual age, has been highlighted as an important predictor of late-life health outcomes. However, it is unclear whether and how SA is associated with the neurobiological process of aging. In this study, 68 healthy older adults underwent a SA survey and magnetic resonance imaging (MRI) scans. T1-weighted brain images of open-access datasets were utilized to construct a model for age prediction.We utilized both voxel-based morphometry (VBM) and age-prediction modeling techniques to explore whether the three groups of SA (i.e., feels younger, same, or older than actual age) differed in their regional gray matter (GM) volumes, and predicted brain age. The results showed that elderly individuals who perceived themselves as younger than their real age showed not only larger GM volume in the inferior frontal gyrus and the superior temporal gyrus, but also younger predicted brain age. Our findings suggest that subjective experience of aging is closely related to the process of brain aging and underscores the neurobiological mechanisms of SA as an important marker of late-life neurocognitive health. [ABSTRACT FROM AUTHOR]

Published

2018

39. SIENA‐XL for improving the assessment of gray and white matter volume changes on brain MRI.

Author

Battaglini, Marco, Jenkinson, Mark, De Stefano, Nicola, and for the Alzheimer's Disease Neuroimaging Initiative

Abstract

Abstract: In this article, SIENA‐XL, a new segmentation‐based longitudinal pipeline is introduced, for: (i) increasing the precision of longitudinal volume change estimation for white (WM) and gray (GM) matter separately, compared with cross‐sectional segmentation methods such as SIENAX; and (ii) avoiding potential biases in registration‐based methods when Jacobians are used, with a smoothing extent larger than spatial scale between tissue‐interfaces, which is where atrophy usually occurs. SIENA‐XL implements a new brain extraction procedure and a multi‐time‐point intensity equalization step before performing the final segmentation that also includes separate segmentation of deep GM structures by using FMRIB's Integrated Registration and Segmentation Tool. The detection of GM and WM volume changes with SIENA‐XL was evaluated using different healthy control (HC) and multiple sclerosis (MS) MRI datasets and compared with the traditional SIENAX and two Jacobian‐based approaches, SPM12 and SIENAX‐JI (a version of SIENAX including Jacobian integration ‐ JI). In scan‐rescan data from HCs, SIENA‐XL showed: (i) a significant decrease in error, of 50–70% when compared with SIENAX; (ii) no significant differences in error when compared with SIENAX‐JI and SPM12 in a scan‐rescan HC dataset that included repositioning. When tested in a HC dataset with scan‐rescan both at baseline and after 1 year of follow‐up, SIENA‐XL showed: (i) significantly higher precision (P < 0.01) than SIENAX; (ii) no significant differences to SIENAX‐JI and SPM12. Finally, in a dataset of 79 MS patients with a 2 years follow‐up, SIENA‐XL showed a substantial reduction of sample size, by comparison with SIENAX, SIENAX‐JI, and SPM12, for detecting treatment effects of 25, 30, and 50%. Hum Brain Mapp 39:1063–1077, 2018. © 2017 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2018

40. The Pathoconnectivity Profile of Alzheimer’s Disease: A Morphometric Coalteration Network Analysis

Author

Jordi Manuello, Andrea Nani, Enrico Premi, Barbara Borroni, Tommaso Costa, Karina Tatu, Donato Liloia, Sergio Duca, and Franco Cauda

Subjects

brain alterations, coatrophy network, pathoconnectivity hubs, Alzheimer’s disease, tauopathy, gray matter atrophy, Neurology. Diseases of the nervous system, RC346-429

Abstract

Gray matter alterations are typical features of brain disorders. However, they do not impact on the brain randomly. Indeed, it has been suggested that neuropathological processes can selectively affect certain assemblies of neurons, which typically are at the center of crucial functional networks. Because of their topological centrality, these areas form a core set that is more likely to be affected by neuropathological processes. In order to identify and study the pattern formed by brain alterations in patients’ with Alzheimer’s disease (AD), we devised an innovative meta-analytic method for analyzing voxel-based morphometry data. This methodology enabled us to discover that in AD gray matter alterations do not occur randomly across the brain but, on the contrary, follow identifiable patterns of distribution. This alteration pattern exhibits a network-like structure composed of coaltered areas that can be defined as coatrophy network. Within the coatrophy network of AD, we were able to further identify a core subnetwork of coaltered areas that includes the left hippocampus, left and right amygdalae, right parahippocampal gyrus, and right temporal inferior gyrus. In virtue of their network centrality, these brain areas can be thought of as pathoconnectivity hubs.

Published

2018

41. Joint assessment of white matter integrity, cortical and subcortical atrophy to distinguish AD from behavioral variant FTD: A two-center study

Author

Christiane Möller, Anne Hafkemeijer, Yolande A.L. Pijnenburg, Serge A.R.B. Rombouts, Jeroen van der Grond, Elise Dopper, John van Swieten, Adriaan Versteeg, Petra J.W. Pouwels, Frederik Barkhof, Philip Scheltens, Hugo Vrenken, and Wiesje M. van der Flier

Subjects

Alzheimer's disease, Frontotemporal dementia, Gray matter atrophy, White matter integrity, Discriminant analyses, Diagnosis, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

We investigated the ability of cortical and subcortical gray matter (GM) atrophy in combination with white matter (WM) integrity to distinguish behavioral variant frontotemporal dementia (bvFTD) from Alzheimer's disease (AD) and from controls using voxel-based morphometry, subcortical structure segmentation, and tract-based spatial statistics. To determine which combination of MR markers differentiated the three groups with the highest accuracy, we conducted discriminant function analyses. Adjusted for age, sex and center, both types of dementia had more GM atrophy, lower fractional anisotropy (FA) and higher mean (MD), axial (L1) and radial diffusivity (L23) values than controls. BvFTD patients had more GM atrophy in orbitofrontal and inferior frontal areas than AD patients. In addition, caudate nucleus and nucleus accumbens were smaller in bvFTD than in AD. FA values were lower; MD, L1 and L23 values were higher, especially in frontal areas of the brain for bvFTD compared to AD patients. The combination of cortical GM, hippocampal volume and WM integrity measurements, classified 97–100% of controls, 81–100% of AD and 67–75% of bvFTD patients correctly. Our results suggest that WM integrity measures add complementary information to measures of GM atrophy, thereby improving the classification between AD and bvFTD.

Published

2015

42. Unraveling the substrates of cognitive impairment in multiple sclerosis: A multiparametric structural and functional magnetic resonance imaging study

Author

Paolo Preziosa, Paola Valsasina, Lorenzo Conti, Carmen Vizzino, Elisabetta Pagani, Maria A. Rocca, Massimo Filippi, Olga Marchesi, Alessandro Meani, Conti, Lorenzo, Preziosa, Paolo, Meani, Alessandro, Pagani, Elisabetta, Valsasina, Paola, Marchesi, Olga, Vizzino, Carmen, Rocca, Maria A, and Filippi, Massimo

Subjects

medicine.medical_specialty, Multiple Sclerosis, Splenium, multiple sclerosis, Corpus callosum, White matter, Atrophy, Internal medicine, Fractional anisotropy, Humans, Medicine, resting state functional connectivity, Cognitive Dysfunction, Gray Matter, cognitive impairment, medicine.diagnostic_test, business.industry, Fornix, Brain, medicine.disease, Magnetic Resonance Imaging, White Matter, gray matter atrophy, medicine.anatomical_structure, Neurology, Cardiology, Neurology (clinical), business, Functional magnetic resonance imaging, MRI, Diffusion MRI

Abstract

Background Cognitive impairment frequently affects multiple sclerosis (MS) patients. However, its neuroanatomical correlates still need to be fully explored. We investigated the contribution of structural and functional magnetic resonance imaging (MRI) abnormalities in explaining cognitive impairment in MS. Methods Brain dual-echo, diffusion tensor, 3D T1-weighted and resting-state (RS) MRI sequences were acquired from 276 MS patients and 102 healthy controls. Using random forest analysis, the contribution of regional white matter (WM) lesions, WM fractional anisotropy (FA) abnormalities, gray matter (GM) atrophy and RS functional connectivity (FC) alterations to cognitive impairment in MS patients was investigated. Results Eighty-four MS patients (30.4%) were cognitively impaired. The best MRI predictors of cognitive impairment (relative importance [%]) (out-of-bag area under the curve [AUC]=0.795) were (a) WM lesions in the right superior longitudinal fasciculus (100%), left anterior thalamic radiation (93.4%), left posterior corona radiata (78.5%), left medial lemniscus (74.2%), left inferior longitudinal fasciculus (70.4%), left optic radiation (68.7%), right middle cerebellar peduncle (60.6%) and right optic radiation (53.5%); (b) decreased FA in the splenium of the corpus callosum (64.3%), left optic radiation (61.0%), body of the corpus callosum (51.9%), and fornix (50.9%); (c) atrophy of the left precuneus (91.4%), right cerebellum crus I (84.4%), right caudate nucleus (78.6%), left thalamus (76.2%) and left supplementary motor area (59.8%). The relevance of these MRI measures in explaining cognitive impairment was confirmed in a cross-validation analysis (AUC=0.765). Conclusions Structural damage in strategic WM and GM regions more than RS FC abnormalities explains cognitive impairment in MS patients.

Published

2021

43. The Pathoconnectivity Profile of Alzheimer's Disease: A Morphometric Coalteration Network Analysis.

Author

Manuello, Jordi, Nani, Andrea, Premi, Enrico, Borroni, Barbara, Costa, Tommaso, Tatu, Karina, Liloia, Donato, Duca, Sergio, and Cauda, Franco

Subjects

ALZHEIMER'S disease, BRAIN diseases

Abstract

Gray matter alterations are typical features of brain disorders. However, they do not impact on the brain randomly. Indeed, it has been suggested that neuropathological processes can selectively affect certain assemblies of neurons, which typically are at the center of crucial functional networks. Because of their topological centrality, these areas form a core set that is more likely to be affected by neuropathological processes. In order to identify and study the pattern formed by brain alterations in patients' with Alzheimer's disease (AD), we devised an innovative meta-analytic method for analyzing voxel-based morphometry data. This methodology enabled us to discover that in AD gray matter alterations do not occur randomly across the brain but, on the contrary, follow identifiable patterns of distribution. This alteration pattern exhibits a network-like structure composed of coaltered areas that can be defined as coatrophy network. Within the coatrophy network of AD, we were able to further identify a core subnetwork of coaltered areas that includes the left hippocampus, left and right amygdalae, right parahippocampal gyrus, and right temporal inferior gyrus. In virtue of their network centrality, these brain areas can be thought of as pathoconnectivity hubs. [ABSTRACT FROM AUTHOR]

Published

2018

44. Regional Gray Matter Volume Loss Is Associated with Gait Impairments in Young Brain-Injured Individuals.

Author

Drijkoningen, David, Chalavi, Sima, Sunaert, Stefan, Duysens, Jacques, Swinnen, Stephan P., and Caeyenberghs, Karen

Subjects

*BRAIN injuries, *PATIENTS, *GAIT disorders, *GRAY matter (Nerve tissue), *SPATIOTEMPORAL processes, *NEURAL physiology, *PHYSIOLOGY

Abstract

Traumatic brain injury (TBI) often leads to impairments in gait performance. However, the underlying neurostructural pathology of these gait deficits is poorly understood. We aimed to investigate regional gray matter (GM) volume in young moderate-to-severe TBI participants ( n = 19; age 13 years 11 months ±3 years 1 month), compared with typically developing (TD) participants ( n = 30; 14 years 10 months ±2 years 2 months), and assess whether reduced volume was related to impaired gait performance in TBI participants. Cortical and subcortical GM structures involved in the neural control of gait were selected as regions of interest (ROIs) and their volume was extracted using Freesurfer. Moreover, established spatiotemporal markers of gait impairments in TBI participants, including step length asymmetry, step length variability, and double support time, were obtained using an electronic walkway. Compared with TD participants, TBI participants showed increased double support time, step length asymmetry, and step length variability, suggesting a reduced gait control. Secondly, in TBI participants, reduced volumes were demonstrated in overall subcortical GM and individual subcortical ROIs, including the hippocampus, cerebellar cortex, putamen, and thalamus. Moreover, in the TBI group, volume losses in subcortical ROIs were highly inter-correlated, indicating that atrophy tends to occur in combined subcortical structures. Finally, it was demonstrated, for the first time, that gait abnormalities in TBI subjects were associated with reduced volume in specific GM structures, including the hippocampus, thalamus, and the cerebellar, superior frontal, paracentral, posterior cingulate, and superior parietal cortices. The present study is an important first step in the understanding of the neurostructural pathology underlying impaired gait in TBI patients. [ABSTRACT FROM AUTHOR]

Published

2017

45. Neuroanatomical and Neuropsychological Markers of Amnestic MCI: A Three-Year Longitudinal Study in Individuals Unaware of Cognitive Decline.

Author

Goerlich, Katharina S., Votinov, Mikhail, Dicks, Ellen, Ellendt, Sinika, Csukly, Gábor, and Habel, Ute

Subjects

MILD cognitive impairment, COGNITIVE ability, NEUROPSYCHOLOGICAL tests, GRAY matter (Nerve tissue), ATROPHY, NEUROPSYCHOLOGY, NEUROSCIENCES

Abstract

Structural brain changes underlying mild cognitive impairment (MCI) have been wellresearched, but most previous studies required subjective cognitive complaints (SCC) as a diagnostic criterion, diagnosed MCI based on a single screening test or lacked analyses in relation to neuropsychological impairment. This longitudinal voxel-based morphometry study aimed to overcome these limitations: The relationship between regional gray matter (GM) atrophy and behavioral performance was investigated over the course of 3 years in individuals unaware of cognitive decline, identified as amnestic MCI based on an extensive neuropsychological test battery. Region of interest analyses revealed GM atrophy in the left amygdala, hippocampus, and parahippocampus in MCI individuals compared to normally aging participants, which was specifically related to verbal memory impairment and evident already at the first measurement point. These findings demonstrate that GM atrophy is detectable in individuals with amnestic MCI despite unawareness of beginning cognitive decline. Thus, individuals with GM atrophy in regions associated with verbal memory impairment do not necessarily need to experience SCC before meeting neuropsychological criteria for MCI. These results have important implications for future research and diagnostic procedures of MCI. [ABSTRACT FROM AUTHOR]

Published

2017

46. Laterality Influences Brain Atrophy in Parkinson's Disease - a Voxel-based Morphometry Study

Author

Maria Cristina Arci Santos, Lidiane Soares Campos, Rachel Paes Guimarães, Camila Callegari Piccinin, Paula Azevedo, Luiza Gonzaga Piovesana, Brunno Machado De Campos, Augusto Celso Scarparo Amato Filho, Fernando Cendes, and Anelyssa D'Abreu

Subjects

laterality, voxel-based morphometry, Parkinson’s disease, neuroimaging., gray matter atrophy, Neurology. Diseases of the nervous system, RC346-429

Abstract

Background: Several neuroimaging studies revealed widespread neurodegeneration in Parkinson's disease but only few considered the asymmetrical clinical presentation. Objective: To investigate gray matter (GM) atrophy in Parkinson Disease considering the side of motor symptom onset. Methods: Sixty patients (57.87± 10.27 years) diagnosed according to the Brain Bank criteria, 26 with right-sided disease onset (RDO) and 34 with left-sided disease onset (LDO), were compared to 80 healthy controls (HC) (57.1± 9.47 years). T1-weighted images were acquired on a 3T scanner. VBM8 (SPM8/Dartel) on Matlab R2012b platform processed and analyzed the images. Statistics included a two-sample test (FWE p

Published

2016

47. Regional Gray Matter Atrophy Coexistent with Occipital Periventricular White Matter Hyper Intensities

Author

Dazhi Duan, Congyang Li, Lin Shen, Chun Cui, Tongsheng Shu, and Jian Zheng

Subjects

Magnetic Resonance Imaging, LDL-C, gray matter atrophy, occipital periventricular hyperintensities, voxel-based morphometry analysis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

White matter hyperintensities (WMHs) and brain atrophy often coexist in the elderly. Additionally, WMH is often observed as occipital periventricular hyperintensities (OPVHs) with low-grade periventricular white matter lesions and is usually confined within an anatomical structure. However, the effects of OPVHs on gray matter atrophy remain largely unknown. In this study, we investigated gray matter atrophy in OPVHs patients and explored the relationship between such atrophy and clinical risk factors. T1-weighted and T2-weighted MRI were acquired, and voxel-based morphometry (VBM) analysis was applied. The clinical (demographic and cardiovascular) risk factors of the OPVHs patients and healthy controls were then compared. Lastly, scatter plots and correlation analysis were applied to explore the relationship between the MRI results and clinical risk factors in the OPVHs patients. OPVHs patients had significantly reduced gray matter in the right supramarginal gyrus, right angular gyrus, right middle temporal gyrus, right anterior cingulum and left insula compared to healthy controls. Additionally, OPVHs patients had gray matter atrophy in the left precentral gyrus and left insula cortex, and such atrophy is associated with a reduction in low-density lipoprotein cholesterol and apolipoprotein-B.

Published

2016

48. Aberrant Functional Connectivity and Structural Atrophy in Subcortical Vascular Cognitive Impairment: Relationship with Cognitive Impairments

Author

Xia eZhou, Xiaopeng eHu, Chao eZhang, Haibao eWang, Xiaoqun eZhu, Liyan eXu, Zhongwu eSun, and Yongqiang eYu

Subjects

Thalamus, functional connectivity, mPFC, Resting-state fMRI, gray matter atrophy, vascular cognition impairment, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abnormal structures in the cortical and subcortical regions have been identified in subcortical vascular cognition impairment (SVCI). However, little is known about the functional alterations in SVCI, and no study refers to the functional connectivity in the prefrontal and subcortical regions in this context. The medial prefrontal cortex (MPFC) is an important region of the executive network and default mode network (DMN), and the subcortical thalamus plays vital roles in mediating or modulating these two networks. To investigate both thalamus- and MPFC-related functional connectivity as well as its relationship with cognition in SVCI, 32 SVCI patients and 23 control individuals were administered neuropsychological assessments. They also underwent structural and functional magnetic resonance imaging (MRI) scans. Voxel-based morphometry (VBM) and functional connectivity analysis were performed to detect gray matter (GM) atrophy and to characterize the functional alterations in the thalamus and the MPFC. For structural data, we observed that GM atrophy was distributed in both cortical regions and subcortical areas. For functional data, we observed that the thalamus functional connectivity in SVCI was significantly decreased in several cortical regions (i.e., the orbitofrontal lobe (OFL)), which are mainly involved in executive function and memory function. However, connectivity was increased in several frontal regions (i.e., the inferior frontal gyrus (IFG)), which may be induced by the compensatory recruitment of the decreased functional connectivity. The MPFC functional connectivity was also decreased in executive- and memory-related regions (i.e., the anterior cingulate cortex (ACC)) along with a motor region (i.e., the supplementary motor region (SMA)). In addition, the cognitive performance was closely correlated with functional connectivity between the left thalamus and the left OFL in SVCI. The present study thus provides evidence for an association between structural and functional alterations and sheds light on the underlying neural mechanisms of executive dysfunction in SVCI.

Published

2016

49. Cortical thickness as predictor of response to exercise in people with Parkinson's disease

Author

Martina Mancini, Oscar Miranda-Dominguez, Carla Silva-Batista, Patricia Carlson-Kuhta, Damien A. Fair, Fay B. Horak, Graham Harker, John G. Nutt, Anjanibhargavi Ragothaman, and Se Hee Jung

Subjects

Male, Parkinson's disease, Executive Function, 0302 clinical medicine, Exercise program, Outcome Assessment, Health Care, Single-Blind Method, Research Articles, Cerebral Cortex, Boot camp, Cross-Over Studies, Radiological and Ultrasound Technology, challenging exercise, 05 social sciences, Neurological Rehabilitation, Parkinson Disease, Cognition, Middle Aged, Magnetic Resonance Imaging, Exercise Therapy, medicine.anatomical_structure, Neurology, Female, Anatomy, Research Article, medicine.medical_specialty, Imaging data, 050105 experimental psychology, freezing of gait, 03 medical and health sciences, Atrophy, Physical medicine and rehabilitation, medicine, Humans, dual‐task cost, 0501 psychology and cognitive sciences, Radiology, Nuclear Medicine and imaging, Exercise, Gait Disorders, Neurologic, Aged, fronto‐parietal cortical, business.industry, visual cortical, medicine.disease, Gait speed, gray matter atrophy, Visual cortex, Neurology (clinical), business, Psychomotor Performance, 030217 neurology & neurosurgery

Abstract

We previously showed that dual‐task cost (DTC) on gait speed in people with Parkinson's disease (PD) improved after 6 weeks of the Agility Boot Camp with Cognitive Challenge (ABC‐C) exercise program. Since deficits in dual‐task gait speed are associated with freezing of gait and gray matter atrophy, here we performed preplanned secondary analyses to answer two questions: (a) Do people with PD who are freezers present similar improvements compared to nonfreezers in DTC on gait speed with ABC‐C? (b) Can cortical thickness at baseline predict responsiveness to the ABC‐C? The DTC from 39 freezers and 43 nonfreezers who completed 6 weeks of ABC‐C were analyzed. A subset of 51 participants (21 freezers and 30 nonfreezers) with high quality imaging data were used to characterize relationships between baseline cortical thickness and delta (Δ) DTC on gait speed following ABC‐C. Freezers showed larger ΔDTC on gait speed than nonfreezers with ABC‐C program (p

Published

2020

50. Does Side of Onset Influence the Pattern of Cerebral Atrophy in Parkinson’s Disease?

Author

Santos, Maria C. A., Campos, Lidiane S., Guimarães, Rachel P., Piccinin, Camila C., Azevedo, Paula C., Piovesana, Luiza G., De Campos, Brunno Machado, Amato-Filho, Augusto C. Scarparo, Cendes, Fernando, and D’Abreu, Anelyssa

Subjects

PARKINSON'S disease, CEREBRAL atrophy, BRAIN imaging

Abstract

Background: Imaging studies have revealed widespread neurodegeneration in Parkinson’s disease (PD), but only a few considered the issue of asymmetrical clinical presentations. Objective: To investigate if the side of onset influences the pattern of gray matter (GM) atrophy in PD. Methods: Sixty patients (57.87 ± 10.27 years) diagnosed with idiopathic PD according to the U.K. Brain Bank criteria, 26 with right-sided disease onset (RDO) and 34 with left-sided disease onset (LDO), were compared to 80 healthy controls (HC) (57.1 ± 9.47 years). We acquired T1-weighted images on a 3 T scanner. Images were processed and analyzed with VBM8 (SPM8/Dartel) on Matlab R2012b platform. Statistic assessments included a two-sample test (family-wise error p < 0.05) with extent threshold of 20 voxels. Results: Compared to HC, LDO patients had GM atrophy in the insula, putamen, anterior cingulate, frontotemporal cortex, and right caudate, while the RDO group showed atrophy at the anterior cingulate, insula, frontotemporal, and occipital cortex. Conclusion: This study revealed widespread GM atrophy in PD, predominantly in the left hemisphere, regardless of the side of onset. Future investigations should also consider handedness and side of onset to better characterize cerebral involvement and its progression in PD. [ABSTRACT FROM AUTHOR]

Published

2016