Hemisphere and Gender Differences in the Rich-Club Organization of Structural Networks

Wang, Bin; Zhan, Qionghui; Yan, Ting; Imtiaz, Sumaira; Xiang, Jie; Niu, Yan; Liu, Miaomiao; Wang, Gongshu; Cao, Rui; Li, Dandan

doi:10.1093/cercor/bhz027

Cited by 28 publications

(50 citation statements)

References 80 publications

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“…The preprocessing steps used were as previously described (Bai et al, 2012;Wang X.N. et al, 2016) and were performed using PANDA software as follows: (Ostrom et al, 2014) format conversion of original data (DICOM); (Raysi Dehcordi et al, 2013) the extraction of brain tissue and structure; (Fornito et al, 2013) realignment; (Hart et al, 2016) Eddy current and motion artifact correction of DTI data by applying an affine alignment of each diffusion-weighted image to the b0 image; (Wang et al, 2019) fractional anisotropy (FA) calculation; (Yan et al, 2018) diffusion tensor tractography; and (Iturria-Medina et al, 2011) conduct of tractography to produce 3D streamlines representing fiber tract connectivity (Mori et al, 1999).…”

Section: Preprocessing Of Imagesmentioning

confidence: 99%

“…The development of complex network analysis using graph theory (i.e., connectome) in the brain offers the potential to identify the impacts of focal and diffuse pathologies in glioma patients (Fornito et al, 2013;Hart et al, 2016), such as rich-club organization (Yan et al, 2018;Wang et al, 2019), small-world characteristics (Iturria-Medina et al, 2011;Yan et al, 2018), betweenness (Iturria-Medina et al, 2011), and global and local network efficiency (Iturria-Medina et al, 2011;Shu et al, 2018). Recent studies have suggested that the human brain shares the same key organizational principles as common, natural, and manmade systems, that is to say, that the human brain is thought to be a network of unceasing communication (Hart et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Altered Rich-Club Organization and Regional Topology Are Associated With Cognitive Decline in Patients With Frontal and Temporal Gliomas

Liu

Yang

et al. 2020

Front. Hum. Neurosci.

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Topological Organization in Glioma Patients Conclusion: Both FTumor and TTumor presented an intact global topology and altered regional topology related to cognitive impairment and may also share the convergent and divergent regional topological organization of WM structural networks. This suggested that a compensatory mechanism plays a key role in global topology formation in both FTumor and TTumor patients, and as such, development of a structural connectome for patients with brain tumors would be an invaluable medical resource and allow clinicians to make comprehensive preoperative planning.

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Section: Preprocessing Of Imagesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Altered Rich-Club Organization and Regional Topology Are Associated With Cognitive Decline in Patients With Frontal and Temporal Gliomas

Liu

Yang

et al. 2020

Front. Hum. Neurosci.

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“…The tractography was terminated when it reached a voxel with an FA value less than 0.1 or when the angle was greater than 35 • . Based on the reconstructed fiber tracts, the WM connection between a pair of nodes was adopted if the fiber number (FN) was larger than 3 (Shu et al, 2011;Li et al, 2018;Wang et al, 2019). We selected the threshold value for the FN > 3 was to reduce pseudo-connections due to possible noise effects on the whole-brain WM tractography (Sun et al, 2015).…”

Section: Data Preprocessing and Network Constructionmentioning

confidence: 99%

“…The node of structural network was defined as one region of the normalized AAL atlas. The weights of the structural network was defined the mean FA values of the connected fibers between 2 regions (Li et al, 2018;Yan et al, 2018;Wang et al, 2019). The reason for choosing FA is that it is an important indicator commonly used to examine the microstructure aspects of brain WM connections (Cui et al, 2013).…”

Section: Data Preprocessing and Network Constructionmentioning

confidence: 99%

“…This paper applied the formula (Yasser et al, 2011;Wang et al, 2019) to estimate the hemispheric asymmetry of the network topology graph metrics, where X(R) and X(L) refer to the graph metric for the right and left hemispheric networks, respectively. A negative AS(X) value indicates leftward asymmetry in the graph metric of X, while a positive AS(X) value demonstrates a rightward advantage in the graph metric of X.…”

Section: Hemispheric Asymmetry In the Graph Metricsmentioning

confidence: 99%

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Disrupted Rich Club Organization of Hemispheric White Matter Networks in Bipolar Disorder

Liu

Yan

et al. 2020

Front. Neuroinform.

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Neuroimaging studies suggest disrupted connections of the brain white matter (WM) network in bipolar disorder (BD). A group of highly interconnected high-density structures, termed the 'rich club,' represents an important network for brain functioning. Recent works have revealed abnormal rich club organization in brain networks in BD. However, little is known regarding changes in the rich club organization of the hemispheric WM network in BD. Forty-nine BD patients and fifty-five age-and sex-matched normal controls (NCs) underwent diffusion tensor imaging (DTI). Graph theory approaches were applied to quantify group-specific rich club organization and nodal degree of hemispheric WM networks. We demonstrated that rich club organization of hemispheric WM networks in BD was disrupted, with disrupted feeder and local connections among hub and peripheral regions located in the default mode network (DMN) and the control execution network (CEN). In addition, BD patients showed abnormal asymmetry in the feeder and local connections, involving the hub and peripheral regions associated with emotion regulation and visuospatial functions. Moreover, the clinical symptoms of BD showed a significant correlation with the aberrant asymmetry in the regional degree of peripheral regions. These findings reveal that BD is closely associated with disrupted feeder and local connections but no alteration in richclub connections in the rich club organization of hemispheric WM networks and provide novel insight into the changes of brain functions in BD.

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The relevance of rich club regions for functional outcome post‐stroke is enhanced in women

Bonkhoff

Schirmer

Bretzner

et al. 2022

Human Brain Mapping

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This study aimed to investigate the influence of stroke lesions in predefined highly interconnected (rich‐club) brain regions on functional outcome post‐stroke, determine their spatial specificity and explore the effects of biological sex on their relevance. We analyzed MRI data recorded at index stroke and ~3‐months modified Rankin Scale (mRS) data from patients with acute ischemic stroke enrolled in the multisite MRI‐GENIE study. Spatially normalized structural stroke lesions were parcellated into 108 atlas‐defined bilateral (sub)cortical brain regions. Unfavorable outcome (mRS > 2) was modeled in a Bayesian logistic regression framework. Effects of individual brain regions were captured as two compound effects for (i) six bilateral rich club and (ii) all further non‐rich club regions. In spatial specificity analyses, we randomized the split into “rich club” and “non‐rich club” regions and compared the effect of the actual rich club regions to the distribution of effects from 1000 combinations of six random regions. In sex‐specific analyses, we introduced an additional hierarchical level in our model structure to compare male and female‐specific rich club effects. A total of 822 patients (age: 64.7[15.0], 39% women) were analyzed. Rich club regions had substantial relevance in explaining unfavorable functional outcome (mean of posterior distribution: 0.08, area under the curve: 0.8). In particular, the rich club‐combination had a higher relevance than 98.4% of random constellations. Rich club regions were substantially more important in explaining long‐term outcome in women than in men. All in all, lesions in rich club regions were associated with increased odds of unfavorable outcome. These effects were spatially specific and more pronounced in women.

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Hemisphere and Gender Differences in the Rich-Club Organization of Structural Networks

Cited by 28 publications

References 80 publications

Altered Rich-Club Organization and Regional Topology Are Associated With Cognitive Decline in Patients With Frontal and Temporal Gliomas

Altered Rich-Club Organization and Regional Topology Are Associated With Cognitive Decline in Patients With Frontal and Temporal Gliomas

Disrupted Rich Club Organization of Hemispheric White Matter Networks in Bipolar Disorder

The relevance of rich club regions for functional outcome post‐stroke is enhanced in women

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