103. Increased Default Mode Network (DMN) Connectivity with Attention Networks with a Mindfulness-Based Intervention for PTSD: Seed and Whole Brain Connectomics Analyses

The ongoing stream of human consciousness relies on two distinct cortical systems, the default mode network and the dorsal attention network, which alternate their activity in an anticorrelated manner. We examined how the two systems are regulated in the conscious brain and how they are disrupted when consciousness is diminished. We provide evidence for a “temporal circuit” characterized by a set of trajectories along which dynamic brain activity occurs. We demonstrate that the transitions between default mode and dorsal attention networks are embedded in this temporal circuit, in which a balanced reciprocal accessibility of brain states is characteristic of consciousness. Conversely, isolation of the default mode and dorsal attention networks from the temporal circuit is associated with unresponsiveness of diverse etiologies. These findings advance the foundational understanding of the functional role of anticorrelated systems in consciousness.

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Brain functional connectivity and morphology changes in medication-overuse headache: Clue for dependence-related processes?

Cephalalgia ◽

10.1177/0333102413519514 ◽

2014 ◽

Vol 34 (8) ◽

pp. 605-615 ◽

Cited By ~ 46

Author(s):

S Chanraud ◽

G Di Scala ◽

B Dilharreguy ◽

J Schoenen ◽

M Allard ◽

...

Keyword(s):

Functional Connectivity ◽

Gray Matter ◽

Default Mode Network ◽

Medication Overuse ◽

Medication Overuse Headache ◽

Voxel Based Morphometry ◽

Whole Brain ◽

Default Mode ◽

Brain Functional Connectivity ◽

Gray Matter Volumes

Background Several imaging studies have identified localized anatomical and functional brain changes in medication-overuse headache (MOH). Objective The objective of this article is to evaluate whole-brain functional connectivity at rest together with voxel-based morphometry in MOH patients, in comparison with episodic migraine (EM) patients and healthy controls (HCs). Methods Anatomical MRI and resting-state functional MRI scans were obtained in MOH patients ( n = 17 and 9, respectively), EM patients ( n = 18 and 15, respectively) and HCs ( n = 17 and 17). SPM8 was used to analyze voxel-based morphometry and seed (left precuneus) to voxel connectivity data in the whole brain. Results Functional connectivity at rest was altered in MOH patients. Connectivity was decreased between precuneus and regions of the default-mode network (frontal and parietal cortices), but increased between precuneus and hippocampal/temporal areas. These functional modifications were not accompanied by significant gross morphological changes. Furthermore, connectivity between precuneus and frontal areas in MOH was negatively correlated with migraine duration and positively correlated with self-evaluation of medication dependence. Gray matter volumes of frontal regions, precuneus and hippocampus were also negatively related to migraine duration. Functional connectivity within the default-mode network appeared to predict anxiety scores of MOH patients while gray matter volumes in this network predicted their depression scores. Conclusions Our data suggest that MOH is associated with functional alterations within intrinsic brain networks rather than with macrostructural changes. They also support the view that dependence-related processes might play a prominent role in its development and maintenance.

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Effects of bariatric surgery on functional connectivity of the reward and default mode network: a pre-registered analysis

10.1101/2021.04.01.21254543 ◽

2021 ◽

Author(s):

Hannah S. Heinrichs ◽

Frauke Beyer ◽

Evelyn Medawar ◽

Kristin Prehn ◽

Juergen Ordemann ◽

...

Keyword(s):

Bariatric Surgery ◽

Functional Connectivity ◽

Default Mode Network ◽

Resting State ◽

Interaction Analysis ◽

Brain Networks ◽

Group Interaction ◽

Head Motion ◽

Whole Brain ◽

Default Mode

Obesity imposes serious health risks and involves alterations in resting-state functional connectivity of brain networks involved in eating behavior. Bariatric surgery is an effective treatment, but its effects on functional connectivity are still under debate. In this pre-registered study, we aimed to determine the effects of bariatric surgery on major resting-state brain networks (reward and default mode network) in a longitudinal controlled design. 33 bariatric surgery patients and 15 obese waiting-list control patients (37 females; aged 44.15 ± 11.86 SD years (range 21-68)) underwent magnetic resonance imaging at baseline, after 6 and 12 months. We conducted a pre-registered whole-brain time-by-group interaction analysis, and a time-by-group interaction analysis on within-network connectivity (https://osf.io/f8tpn/, https://osf.io/59bh7/). In exploratory analyses, we investigated the effects of weight loss and head motion. Bariatric surgery compared to waiting did not significantly affect functional connectivity (FWE-corrected p > 0.05), neither whole-brain nor within-network. In exploratory analyses, surgery-related BMI decrease (FWE-corrected p = 0.041) and higher average head motion (FWE-corrected p = 0.021) resulted in significantly stronger connectivity of the reward network with medial posterior frontal regions. This pre-registered well-controlled study did not support a strong effect of bariatric surgery, compared to waiting, on major resting-state brain networks after 6 months. Exploratory analyses indicated that head motion might have confounded the effects. Data pooling and more rigorous control of within-scanner head motion during data acquisition are needed to substantiate effects of bariatric surgery on brain organization.

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Exploring white matter functional networks in children with attention-deficit/hyperactivity disorder

Brain Communications ◽

10.1093/braincomms/fcaa113 ◽

2020 ◽

Vol 2 (2) ◽

Author(s):

Xuan Bu ◽

Kaili Liang ◽

Qingxia Lin ◽

Yingxue Gao ◽

Andan Qian ◽

...

Keyword(s):

Attention Deficit Hyperactivity Disorder ◽

White Matter ◽

Attention Deficit ◽

Default Mode Network ◽

Functional Networks ◽

Attention Network ◽

Attention Networks ◽

Default Mode ◽

Hyperactivity Disorder ◽

Drug Naïve

Abstract Attention-deficit/hyperactivity disorder has been identified to involve the impairment of large-scale functional networks within grey matter, and recent studies have suggested that white matter, which also encodes neural activity, can manifest intrinsic functional organization similar to that of grey matter. However, the alterations in white matter functional networks in attention-deficit/hyperactivity disorder remain unknown. We recruited a total of 99 children, including 66 drug-naive patients and 33 typically developing controls aged from 6 to 14, to characterize the alterations in functional networks within white matter in drug-naive children with attention-deficit/hyperactivity disorder. Using clustering analysis, resting-state functional MRI data in the white matter were parsed into different networks. Intrinsic activity within each network and connectivity between networks and the associations between network activity strength and clinical symptoms were assessed. We identified eight distinct white matter functional networks: the default mode network, the somatomotor network, the dorsal attention network, the ventral attention network, the visual network, the deep frontoparietal network, the deep frontal network and the inferior corticospinal-posterior cerebellum network. The default mode, somatomotor, dorsal attention and ventral attention networks showed lower spontaneous neural activity in patients. In particular, the default mode network and the somatomotor network largely showed higher connectivity with other networks, which correlated with more severe hyperactive behaviour, while the dorsal and ventral attention networks mainly had lower connectivity with other networks, which correlated with poor attention performance. In conclusion, there are two distinct patterns of white matter functional networks in children with attention-deficit/hyperactivity disorder, with one being the hyperactivity-related hot networks including default mode network and somatomotor network and the other being inattention-related cold networks including dorsal attention and ventral attention network. These results extended upon our understanding of brain functional networks in attention-deficit/hyperactivity disorder from the perspective of white matter dysfunction.

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Relationship of Depression, Anxiety, and Rumination Scores with EEG Connectivity of Resting State Networks

Human Physiology ◽

10.1134/s0362119721010023 ◽

2021 ◽

Vol 47 (2) ◽

pp. 123-127

Author(s):

A. V. Bocharov ◽

G. G. Knyazev ◽

A. N. Savostyanov ◽

A. E. Saprygin ◽

E. A. Proshina ◽

...

Keyword(s):

Depressive Symptoms ◽

Default Mode Network ◽

Resting State ◽

Temporal Cortex ◽

Brain Structures ◽

Anterior Cingulate ◽

Resting State Networks ◽

Attention Networks ◽

Default Mode ◽

Seed Method

Abstract The aim of the research was to study the effect of depression, anxiety, and rumination scores on the balance of activity of the default mode network and attention networks revealed in the resting state EEG records. Forty-five healthy volunteers (24 men aged from 18 to 25 years) participated in the resting state EEG recording. The participants filled in the Beck Depression Inventory-II (BDI II), Ruminative Responses Scale, and Eysenck Personality Profiler. The connectivity measures of resting state networks were calculated in EEG data. The networks were detected by the “seed” method. The effects of depressive symptoms, anxiety, and rumination on the connectivity of the networks were analyzed by the regression method. The depressive symptom scores and the rumination scores were correlated with the dominance of the default mode network over attention networks in the right temporal cortex. The depression scores and the anxiety scores were correlated with the dominance of attention networks over the default mode network in the anterior cingulate cortex. It could be suggested that rumination processes are specific for depressive symptoms and are reflected in the dominance of the default mode network in brain structures associated with the processing of emotional introspection. Common to depressive and anxious symptoms is a state of alertness, which is reflected in the dominance of attention networks in brain structures associated with decision-making.

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Brain functional changes in first-degree relatives of patients with bipolar disorder: evidence for default mode network dysfunction

Psychological Medicine ◽

10.1017/s0033291716001148 ◽

2016 ◽

Vol 46 (12) ◽

pp. 2513-2521 ◽

Cited By ~ 7

Author(s):

S. Alonso-Lana ◽

M. Valentí ◽

A. Romaguera ◽

C. Sarri ◽

S. Sarró ◽

...

Keyword(s):

Bipolar Disorder ◽

Prefrontal Cortex ◽

Medial Prefrontal Cortex ◽

Default Mode Network ◽

Healthy Controls ◽

Whole Brain ◽

Default Mode ◽

Functional Changes ◽

Significant Difference ◽

Bipolar Patients

BackgroundRelatively few studies have investigated whether relatives of patients with bipolar disorder show brain functional changes, and these have focused on activation changes. Failure of de-activation during cognitive task performance is also seen in the disorder and may have trait-like characteristics since it has been found in euthymia.MethodA total of 20 euthymic patients with bipolar disorder, 20 of their unaffected siblings and 40 healthy controls underwent functional magnetic resonance imaging during performance of the n-back working memory task. An analysis of variance (ANOVA) was fitted to individual whole-brain maps from each set of patient–relative–matched pair of controls. Clusters of significant difference among the groups were used as regions of interest to compare mean activations/de-activations between them.ResultsA single cluster of significant difference among the three groups was found in the whole-brain ANOVA. This was located in the medial prefrontal cortex, a region of task-related de-activation in the healthy controls. Both the patients and their siblings showed significantly reduced de-activation compared with the healthy controls in this region, but the failure was less marked in the relatives.ConclusionsFailure to de-activate the medial prefrontal cortex in both euthymic bipolar patients and their unaffected siblings adds to evidence for default mode network dysfunction in the disorder, and suggests that it may act as a trait marker.

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Resting-State Functional Connectivity and Scholastic Performance in Preadolescent Children: A Data-Driven Multivoxel Pattern Analysis (MVPA)

Journal of Clinical Medicine ◽

10.3390/jcm9103198 ◽

2020 ◽

Vol 9 (10) ◽

pp. 3198

Author(s):

Daniel R. Westfall ◽

Sheeba A. Anteraper ◽

Laura Chaddock-Heyman ◽

Eric S. Drollette ◽

Lauren B. Raine ◽

...

Keyword(s):

Functional Connectivity ◽

Default Mode Network ◽

Resting State ◽

Pattern Analysis ◽

Composite Score ◽

Resting State Functional Connectivity ◽

Whole Brain ◽

Default Mode ◽

Preadolescent Children ◽

Scholastic Performance

Scholastic performance is the key metric by which schools measure student’s academic success, and it is important to understand the neural-correlates associated with greater scholastic performance. This study examines resting-state functional connectivity (RsFc) associated with scholastic performance (reading and mathematics) in preadolescent children (7–9 years) using an unbiased whole-brain connectome-wide multi-voxel pattern analysis (MVPA). MVPA revealed four clusters associated with reading composite score, these clusters were then used for whole-brain seed-based RsFc analysis. However, no such clusters were found for mathematics composite score. Post hoc analysis found robust associations between reading and RsFc dynamics with areas involved with the somatomotor, dorsal attention, ventral attention, limbic, frontoparietal, and default mode networks. These findings indicate that reading ability may be associated with a wide range of RsFc networks. Of particular interest, anticorrelations were observed between the default mode network and the somatomotor, dorsal attention, ventral attention, and frontoparietal networks. Previous research has demonstrated the importance of anticorrelations between the default mode network and frontoparietal network associated with cognition. These results extend the current literature exploring the role of network connectivity in scholastic performance of children.

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Multivariate associative patterns between the gut microbiota and large-scale brain network connectivity

10.1101/2020.08.25.266122 ◽

2020 ◽

Author(s):

N. Kohn ◽

J. Szopinska-Tokov ◽

A. Llera ◽

C. Beckmann ◽

A. Arias Vasquez ◽

...

Keyword(s):

Gut Microbiota ◽

Default Mode Network ◽

Large Scale ◽

Network Connectivity ◽

Brain Network ◽

Imaging Data ◽

Microbial Composition ◽

Attention Networks ◽

Default Mode ◽

Brain Network Connectivity

AbstractResearch on the gut-brain axis has accelerated substantially over the course of the last years. Many reviews have outlined the important implications of understanding the relation of the gut microbiota with human brain function and behavior. One substantial drawback in integrating gut microbiome and brain data is the lack of integrative multivariate approaches that enable capturing variance in both modalities simultaneously. To address this issue, we applied a linked independent component analysis (LICA) to microbiota and brain connectivity data.We analyzed data from 58 healthy females (mean age = 21.5 years). Magnetic Resonance Imaging data were acquired using resting state functional imaging data. The assessment of gut microbial composition from feces was based on sequencing of the V4 16S rRNA gene region. We used the LICA model to simultaneously factorize the subjects’ large-scale brain networks and microbiome relative abundance data into 10 independent components of spatial and abundance variation.LICA decomposition resulted in four components with non-marginal contribution of the microbiota data. The default mode network featured strongly in three components, whereas the two-lateralized fronto-parietal attention networks contributed to one component. The executive-control (with the default mode) network was associated to another component. We found the abundance of Prevotella genus was associated to the strength of expression of all networks, whereas Bifidobacterium was associated with the default mode and frontoparietal-attention networks.We provide the first exploratory evidence for multivariate associative patterns between the gut microbiota and brain network connectivity in healthy humans, taking into account the complexity of both systems.

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Replay bursts coincide with activation of the default mode and parietal alpha network

10.1101/2020.06.23.166645 ◽

2020 ◽

Cited By ~ 1

Author(s):

Cameron Higgins ◽

Yunzhe Liu ◽

Diego Vidaurre ◽

Zeb Kurth-Nelson ◽

Ray Dolan ◽

...

Keyword(s):

Information Flow ◽

Default Mode Network ◽

Brain Activity ◽

Whole Brain ◽

Default Mode ◽

Cortical Areas ◽

Band Power ◽

Open Question

AbstractOur brains at rest spontaneously replay recently acquired information, but how this process is orchestrated to avoid interference with ongoing cognition is an open question. We investigated whether replay coincided with spontaneous patterns of whole brain activity. We found, in two separate datasets, that replay sequences were packaged into transient bursts occurring selectively during activation of the default mode network (DMN) and parietal alpha network. These networks were characterized by widespread synchronized oscillations coupled to increases in ripple band power, mechanisms that coordinate information flow between disparate cortical areas. Our data show a tight correspondence between two widely studied phenomena of neural physiology and suggest the DMN may coordinate replay bursts in a manner that minimizes interference with ongoing cognition.

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