Structural Covariance in the Human Cortex

Mechelli, Andrea; Friston, Karl J.; Frackowiak, R. S. J.; Price, Cathy J.

doi:10.1523/jneurosci.0357-05.2005

Cited by 560 publications

(511 citation statements)

References 48 publications

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“…Unlike most previous studies of gray matter structural covariance networks, the similarity‐based extraction method we applied resulted in individual level networks that allowed us to examine correlations with functional connectomes. Gray matter structural covariance networks are believed to reflect underlying axonal connections as well as common genetic, neurotrophic, and neuroplastic processes (Alexander‐Bloch, Giedd, & Bullmore, 2013; Mechelli, Friston, Frackowiak, & Price, 2005). Our group and others have previously demonstrated, in healthy adults, that structural covariance networks are consistent with intrinsic functional networks with respect to connectivity pattern, although not in all brain regions (Damoiseaux & Greicius, 2009; Hosseini & Kesler, 2013).…”

Section: Discussionmentioning

confidence: 99%

Disrupted brain network functional dynamics and hyper‐correlation of structural and functional connectome topology in patients with breast cancer prior to treatment

et al. 2017

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IntroductionSeveral previous studies have demonstrated that cancer chemotherapy is associated with brain injury and cognitive dysfunction. However, evidence suggests that cancer pathogenesis alone may play a role, even in non‐CNS cancers.MethodsUsing a multimodal neuroimaging approach, we measured structural and functional connectome topology as well as functional network dynamics in newly diagnosed patients with breast cancer. Our study involved a novel, pretreatment assessment that occurred prior to the initiation of any cancer therapies, including surgery with anesthesia. We enrolled 74 patients with breast cancer age 29–65 and 50 frequency‐matched healthy female controls who underwent anatomic and resting‐state functional MRI as well as cognitive testing.ResultsCompared to controls, patients with breast cancer demonstrated significantly lower functional network dynamics (p = .046) and cognitive functioning (p < .02, corrected). The breast cancer group also showed subtle alterations in structural local clustering and functional local clustering (p < .05, uncorrected) as well as significantly increased correlation between structural global clustering and functional global clustering compared to controls (p = .03). This hyper‐correlation between structural and functional topologies was significantly associated with cognitive dysfunction (p = .005).ConclusionsOur findings could not be accounted for by psychological distress and suggest that non‐CNS cancer may directly and/or indirectly affect the brain via mechanisms such as tumor‐induced neurogenesis, inflammation, and/or vascular changes, for example. Our results also have broader implications concerning the importance of the balance between structural and functional connectome properties as a potential biomarker of general neurologic deficit.

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Section: Discussionmentioning

confidence: 99%

Disrupted brain network functional dynamics and hyper‐correlation of structural and functional connectome topology in patients with breast cancer prior to treatment

et al. 2017

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“…We performed an analysis of variance (ANOVA) to identify significant differences in white matter volume across groups; age and sex were included as covariates of no interest to reduce the potential impact of these variables on the findings. 40 Inferences were made using a statistic al threshold of p < 0.05, family wise error (FWE)-corrected. Significant foci were anatomically localized using the standard atlas of Talairach and Tournoux.…”

Section: Image Analysismentioning

confidence: 99%

White matter alterations related to P300 abnormalities in individuals at high risk for psychosis: an MRI–EEG study

Fusar‐Poli

Crossley

Woolley

et al. 2011

jpn

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“…Furthermore, ICN connectivity strength has been shown to impact human behaviors, whether those behaviors are measured inside (10,11) or outside (8) the scanner. Building on the ICN approach, several groups have mapped whole-brain correlations in gray matter volume across subjects (12)(13)(14)(15)(16). In our recent work in healthy adults (14), these structural covariance networks (SCNs) were shown to recapitulate the canonical ICN topologies, suggesting that SCNs might serve as a measure of network integrity for cross-sectional group studies.…”

mentioning

confidence: 99%

Network-level structural covariance in the developing brain

Zielinski

Gennatas

Zhou

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

366

382

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Intrinsic or resting state functional connectivity MRI and structural covariance MRI have begun to reveal the adult human brain's multiple network architectures. How and when these networks emerge during development remains unclear, but understanding ontogeny could shed light on network function and dysfunction. In this study, we applied structural covariance MRI techniques to 300 children in four age categories (early childhood, 5-8 y; late childhood, 8.5-11 y; early adolescence, 12-14 y; late adolescence, 16-18 y) to characterize gray matter structural relationships between cortical nodes that make up large-scale functional networks. Network nodes identified from eight widely replicated functional intrinsic connectivity networks served as seed regions to map whole-brain structural covariance patterns in each age group. In general, structural covariance in the youngest age group was limited to seed and contralateral homologous regions. Networks derived using primary sensory and motor cortex seeds were already well-developed in early childhood but expanded in early adolescence before pruning to a more restricted topology resembling adult intrinsic connectivity network patterns. In contrast, language, social-emotional, and other cognitive networks were relatively undeveloped in younger age groups and showed increasingly distributed topology in older children. The so-called default-mode network provided a notable exception, following a developmental trajectory more similar to the primary sensorimotor systems. Relationships between functional maturation and structural covariance networks topology warrant future exploration.childhood | children | connectivity | development | neuroimaging

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Structural Covariance in the Human Cortex

Cited by 560 publications

References 48 publications

Disrupted brain network functional dynamics and hyper‐correlation of structural and functional connectome topology in patients with breast cancer prior to treatment

Disrupted brain network functional dynamics and hyper‐correlation of structural and functional connectome topology in patients with breast cancer prior to treatment

White matter alterations related to P300 abnormalities in individuals at high risk for psychosis: an MRI–EEG study

Network-level structural covariance in the developing brain

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