Brain Age Modeling Using High-Resolution 7T MR Imaging and Implications in Major Depressive Disorder

2020 ◽  
Vol 87 (9) ◽  
pp. S257
Author(s):  
Gaurav Verma ◽  
Yael Jacob ◽  
Laurel Morris ◽  
James Murrough ◽  
Priti Balchandani
Keyword(s):  
Major Depressive Disorder ◽  
High Resolution ◽  
Mr Imaging ◽  
Depressive Disorder ◽  
Major Depressive ◽  
Brain Age

Effects of genetic variants on neural circuits in major depression

2011 ◽  
Vol 26 (S2) ◽  
pp. 2085-2085
Author(s):  
T. Frodl
Keyword(s):  
Major Depressive Disorder ◽  
High Resolution ◽  
Cognitive Control ◽  
Depressive Disorder ◽  
Early Life ◽  
Brain Regions ◽  
High Angular Resolution ◽  
Major Depressive ◽  
Early Life Adversity ◽  
Brain Changes

IntroductionThe underlying neurobiology of major depressive disorder (MDD) is likely to represent an interaction between genetic susceptibility and environmental factors like stress. There is growing evidence that epigenetic processes might mediate the effects of the social environment during childhood on gene expression.ObjectivesWe investigated in multimodal high-resolution MRI-genetic studies whether microstructural and functional brain changes are the result of gene-environment interactions.MethodsPatients with major depressive disorder (MDD), high-risk subjects for developing MDD and healthy participants were investigated using high-resolution magnetic resonance imaging (MRI), high angular resolution diffusion imaging (HARDI) and functional MRI. Furthermore, we assessed early life adversity and measured the serotonin transporter polymorphisms (5-HTTLPR).ResultsWe demonstrated that patients with MDD have smaller hippocampal and frontal cortex volumes associated with gen-environment interactions. Healthy Subjects at risk for developing depression, who manage to stay healthy, show better activation of the frontal cognitive control system. Those who had stronger fibre connections between frontal and temporal brain regions also better managed incidences of adversity in early life.ConclusionsStress x gene interactions seem to account for at least some of the structural brain changes. Resilience against environmental stressors might be associated with stronger neural fibre connections and more effective cognitive control networks.

scholarly journals Left-right asymmetric and smaller right habenula volume in major depressive disorder on high-resolution 7-T magnetic resonance imaging

PLoS ONE ◽  
2021 ◽  
Vol 16 (8) ◽  
pp. e0255459
Author(s):  
Seo-Eun Cho ◽  
Chan-A Park ◽  
Kyoung-Sae Na ◽  
ChiHye Chung ◽  
Hyo-Jin Ma ◽  
...  
Keyword(s):  
Major Depressive Disorder ◽  
Magnetic Resonance ◽  
High Resolution ◽  
Depressive Disorder ◽  
Animal Studies ◽  
Image Data ◽  
Major Depressive ◽  
Healthy Control ◽  
Left Right Asymmetry ◽  
The Right

The habenula (Hb) has been hypothesized to play an essential role in major depressive disorder (MDD) as it is considered to be an important node between fronto-limbic areas and midbrain monoaminergic structures based on animal studies. In this study, we aimed to investigate the differences in volume and T1 value of the Hb between patients with MDD and healthy control (HC) subjects. Analysis for the Hb volumes was performed using high-resolution 7-T magnetic resonance (MR) image data from 33 MDD patients and 36 healthy subjects. Two researchers blinded to the clinical data manually delineated the habenular nuclei and Hb volume, and T1 values were calculated based on overlapping voxels. We compared the Hb volume and T1 value between the MDD and HC groups and compared the volume and T1 values between the left and right Hbs in each group. Compared to HC subjects, MDD patients had a smaller right Hb volume; however, there was no significant volume difference in the left Hb between groups. In the MDD group, the right Hb was smaller in volume and lower in T1 value than the left Hb. The present findings suggest a smaller right Hb volume and left-right asymmetry of Hb volume in MDD. Future high-resolution 7-T MR imaging studies with larger sample sizes will be needed to derive a more definitive conclusion.

Axonal myelin increase in the callosal genu in depression but not schizophrenia

2015 ◽  
Vol 45 (10) ◽  
pp. 2145-2155 ◽  
Author(s):  
M. R. Williams ◽  
P. Sharma ◽  
K. L. Fung ◽  
R. K. B. Pearce ◽  
S. R. Hirsch ◽  
...  
Keyword(s):  
Major Depressive Disorder ◽  
High Resolution ◽  
Depressive Disorder ◽  
Sagittal Plane ◽  
Brain Regions ◽  
Cross Sectional Area ◽  
Sectional Area ◽  
Myelinated Axons ◽  
Major Depressive ◽  
Cross Sectional

BackgroundAbnormalities in the anterior inter-hemispheric connectivity have previously been implicated in major depressive disorder. Disruptions in fractional anisotropy in the callosum and fornix have been reported in schizophrenia and major depressive disorder. Oligodendrocyte density and overall size of the callosum and fornix show no alteration in either illness, suggesting that gross morphology is unchanged but more subtle organizational disruption may exist within these brain regions in mood and affective disorders.MethodUsing high-resolution oil-immersion microscopy we examined the cross-sectional area of the nerve fibre and the axonal myelin sheath, and using standard high-resolution light microscopy we measured the density of myelinated axons. These measurements were made in the genu of the corpus callosum and the medial body of the fornix at its most dorsal point. Measures were taken in the sagittal plane in the callosal genu and in the coronal plane at the most dorsal part of the fornix body.ResultsCases of major depressive disorder had significantly greater mean myelin cross-sectional area (p = 0.017) and myelin thickness (p = 0.004) per axon in the genu than in control or schizophrenia groups. There was no significant change in the density of myelinated axons, and no changes observed in the fornix.ConclusionThe results suggest a clear increase of myelin in the axons of the callosal genu in MDD, although this type of neuropathological study is unable to clarify whether this is caused by changes during life or has a developmental origin.

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