Multiple cortical thickness sub-networks and cognitive impairments in first episode, drug naïve patients with late life depression: A graph theory analysis

Background: Neuronal loss in Parkinson’s Disease (PD) leads to widespread neural network dysfunction. While graph theory allows for analysis of whole brain networks, patterns of functional connectivity (FC) associated with motor response to deep brain stimulation of the subthalamic nucleus (STN-DBS) have yet to be explored.Objective/Hypothesis: To investigate the distributed network properties associated with STN-DBS in patients with advanced PD.Methods: Eighteen patients underwent 3-Tesla resting state functional MRI (rs-fMRI) prior to STN-DBS. Improvement in UPDRS-III scores following STN-DBS were assessed 1 year after implantation. Independent component analysis (ICA) was applied to extract spatially independent components (ICs) from the rs-fMRI. FC between ICs was calculated across the entire time series and for dynamic brain states. Graph theory analysis was performed to investigate whole brain network topography in static and dynamic states.Results: Dynamic analysis identified two unique brain states: a relative hypoconnected state and a relative hyperconnected state. Time spent in a state, dwell time, and number of transitions were not correlated with DBS response. There were no significant FC findings, but graph theory analysis demonstrated significant relationships with STN-DBS response only during the hypoconnected state – STN-DBS was negatively correlated with network assortativity.Conclusion: Given the widespread effects of dopamine depletion in PD, analysis of whole brain networks is critical to our understanding of the pathophysiology of this disease. Only by leveraging graph theoretical analysis of dynamic FC were we able to isolate a hypoconnected brain state that contained distinct network properties associated with the clinical effects of STN-DBS.

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Graph theory analysis of protein-protein interaction graphs through clustering method

2017 IEEE International Conference on Intelligent Techniques in Control, Optimization and Signal Processing (INCOS) ◽

10.1109/itcosp.2017.8303125 ◽

2017 ◽

Author(s):

J. Susymary ◽

R. Lawrance

Keyword(s):

Graph Theory ◽

Protein Interaction ◽

Clustering Method ◽

Theory Analysis ◽

Interaction Graphs ◽

Protein Protein Interaction ◽

Graph Theory Analysis

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The Cerebrovascular Model of Depression in Late Life

CNS Spectrums ◽

10.1017/s1092852900008695 ◽

2002 ◽

Vol 7 (10) ◽

pp. 712-715 ◽

Cited By ~ 10

Author(s):

Jeffrey M. Lyness

Keyword(s):

Stroke Risk ◽

Age Of Onset ◽

Cognitive Impairments ◽

Late Life ◽

Executive Dysfunction ◽

Brain Disease ◽

Future Research ◽

Late Life Depression ◽

Vascular Depression ◽

Cerebrovascular Risk

ABSTRACTDepression in older people, especially depression with an older age of onset, may be a manifestation of acquired brain disease. The cerebrovascular model of depression, often referred to as “vascular depression,” hypothesizes that otherwise clinically occult small vessel brain disease contribute to the pathogeneses of some late-life depressive conditions. This paper reviews several lines of evidence supporting the cerebrovascular model and addresses the limitations of the existing literature. Several directions for future research are noted, including empirical testing of the notion that cerebrovascular disease might underlie the pathogeneses of depression with prominent executive dysfunction or other cognitive impairments. At this time, there are no specific therapeutic options for patients with suspected vascular depression beyond standard approaches to depression treatments, although education about the possibly greater risks of chronicity should be included in treatment planning. Therapy of cerebrovascular risk factors and stroke-risk reduction are important as consistent with general practice guidelines, although it is not known whether this will reduce the incidence or improve the outcome of late-life depression.

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