A moment of change: shifts in myeloarchitecture characterise adolescent development of cortical gradients

Paquola, Casey; Bethlehem, Richard A.I.; Seidlitz, Jakob; Wagstyl, Konrad; Romero-García, Rafael; Whitaker, Kirstie; R, Vos de Wael; Williams, Guy B.; Vértes, Petra E.; Margulies, Daniel S.; Bernhardt, Boris C.; Bullmore, Edward T.

doi:10.1101/706341

Cited by 12 publications

(21 citation statements)

References 64 publications

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“…The dorsal-ventral dissociation was only observed in the upper two strata, with ventral regions relating to lower T1wT2 contrast than dorsal regions. Difference in upper and lower strata T1wT2w contrast has been summarized using “skewness”, indicating regions with high difference between upper and lower layers would have a low skewness, whereas regions with a small difference between upper and lower layers having a high skewness 73 . Dorsal regions including the sensory-motor cortex have been reported to have a low skewness, indicating a high difference in myelin between upper and lower layers.…”

Section: Discussionmentioning

confidence: 99%

Shaping Brain Structure: Genetic and Phylogenetic Axes of Macro Scale Organization of Cortical Thickness

Valk

Margulies

et al. 2020

Preprint

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2Structural and functional characteristics of the cortex systematically vary along global axes as 3 a function of cytoarchitecture, gene expression, and connectivity. The topology of the cerebral 4 cortex has been proposed to be a prerequisite for the emergence of human cognition and 5 explain both the impact and progression of pathology. However, the neurogenetic origin of 6 these organizational axes in humans remains incompletely understood. To address this gap in 7 the literature our current study assessed macro scale cortical organization through an 8 unsupervised machine learning analysis of cortical thickness covariance patterns and used 9 converging methods to evaluate its genetic basis. In a large-scale sample of twins (n=899) we 1 0found structural covariance of thickness to be organized along both an anterior-to-posterior

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Section: Discussionmentioning

confidence: 99%

Shaping Brain Structure: Genetic and Phylogenetic Axes of Macro Scale Organization of Cortical Thickness

Valk

Margulies

et al. 2020

Preprint

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“…average regional MT values are computed for each region across approximately the same number of voxels). The subdivided (308) parcellation was transformed from standard fsaverage space into the native space of each individual using surface-based corregistration to minimise geometric distortions and age-related biases [40,57].…”

Section: Methodsmentioning

confidence: 99%

“…Given this explanatory power of the latent disinhibition phenotype, coupled with individual differences in myelin-related brain growth during early adulthood [40], understanding the neural mechanisms underpinning this novel latent phenotype is an important next step. Therefore, the primary aim of the current study was to identify relationships between intra-cortical myelination (quantified using MT) and the expression of a latent phenotype of disinhibition [10]; i.e.…”

Section: Introductionmentioning

confidence: 99%

“…Our premise was that disinhibition arises from alterations in frontal brain architecture, manifesting as increased intra-cortical white matter (MT) and concomitant reductions in cortical thickness. In view of the centrality of certain neurochemical systems in understanding impulsivity and compulsivity [41,42], along with recent methodological developments [40,43], the secondary aim of this study was to inferentially ascertain genes co-localised with disinhibition-related cortical regions, by cross-referencing against a public-domain brain atlas [44]. We hypothesised (i) that disinhibition would be associated with elevated MT (and concomitant reductions in grey matter cortical thickness), in frontal and other cortical regions; and (ii) that genes significantly associated with disinhibitionrelated regions would be identified, which would be inferentially enriched for functional interactions involving receptor signalling pathways implicated in impulsivity/compulsivity.…”

Section: Introductionmentioning

confidence: 99%

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Brain micro-architecture and disinhibition: a latent phenotyping study across 33 impulsive and compulsive behaviours

Romero-García

Hook

Tiego

et al. 2020

Neuropsychopharmacol.

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Impulsive and compulsive symptoms are common, tend to co-occur, and collectively account for a substantive global disease burden. Latent phenotyping offers a promising approach to elucidate common neural mechanisms conferring vulnerability to such symptoms in the general population. We utilised the Neuroscience in Psychiatry Network (NSPN), a cohort of young people (aged 18–29 years) in the United Kingdom, who provided questionnaire data and Magnetic Resonance Imaging scans. Partial Least Squares was used to identify brain regions in which intra-cortical myelination (measured using Magnetisation Transfer, MT) was significantly associated with a disinhibition phenotype, derived from bi-factor modelling of 33 impulsive and compulsive problem behaviours. The neuroimaging sample comprised 126 participants, mean 22.8 (2.7 SD) years old, being 61.1% female. Disinhibition scores were significantly and positively associated with higher MT in the bilateral frontal and parietal lobes. 1279 genes associated with disinhibition-related brain regions were identified, which were significantly enriched for functional biological interactions reflecting receptor signalling pathways. This study indicates common microstructural brain abnormalities contributing to a multitude of related, prevalent, problem behaviours characterised by disinhibition. Such a latent phenotyping approach provides insights into common neurobiological pathways, which may help to improve disease models and treatment approaches. Now that this latent phenotyping model has been validated in a general population sample, it can be extended into patient settings.

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“…MPC gradient characterization. Variations in T1w/T2w intensity profiles along the space composed of the first two microstructural gradients were characterized using statistical moment parameterization (36,37,64). We calculated the mean, standard deviation, skewness, and kurtosis of intracortical T1w/T2w profiles of each insular vertex.…”

Section: Microstructural Profile Covariance (Mpc) and Gradient Mappingmentioning

confidence: 99%

Myeloarchitecture gradients in the human insula serve as blueprints for its diverse connectivity and function

Royer

Paquola

Larivière

et al. 2019

Preprint

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Insular cortex is a core hub involved in multiple cognitive and socio-affective processes. Yet, the anatomical mechanisms that explain how it is involved in such a diverse array of functions remain incompletely understood. Here, we define a novel framework to test the hypothesis that changes in myeloarchitecture across the insular cortex explain how it can be involved in many different facets of cognitive function. Detailed intracortical profiling, performed across hundreds of insular locations on the basis of myelin-sensitive magnetic resonance imaging (MRI), was compressed into a lower-dimensional space uncovering principal axes of myeloarchitectonic variation. Leveraging two datasets with different high-resolution MRI contrasts, we obtained robust support for two principal dimensions of insular myeloarchitectonic differentiation in vivo, one running from ventral anterior to posterior banks and one radiating from dorsal anterior towards both ventral anterior and posterior subregions. Analyses of post mortem 3D histological data showed that the antero-posterior axis was mirrored in cytoarchitectural markers, even when controlling for anatomical landmarks and sulco-gyral folding. Resting-state functional connectomics in the same individuals and ad hoc meta-analyses showed that myelin gradients in the insula constrained affiliation to macroscale intrinsic functional systems, showing differential shifts in functional network embedding across each myelin-derived gradient. Collectively, our findings offer a novel approach to capture structure-function interactions of a key node of the limbic system, and suggest a multidimensional structural basis underlying the diverse functional roles of the insula. KEYWORDS: Insula | Multiscale | Myelin | Functional connectivity | HierarchyRoyer et al. | Myeloarchitecture blueprints in the insula

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A moment of change: shifts in myeloarchitecture characterise adolescent development of cortical gradients

Cited by 12 publications

References 64 publications

Shaping Brain Structure: Genetic and Phylogenetic Axes of Macro Scale Organization of Cortical Thickness

Shaping Brain Structure: Genetic and Phylogenetic Axes of Macro Scale Organization of Cortical Thickness

Brain micro-architecture and disinhibition: a latent phenotyping study across 33 impulsive and compulsive behaviours

Myeloarchitecture gradients in the human insula serve as blueprints for its diverse connectivity and function

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