Emile Dimas scite author profile

Humans survive and thrive through social exchange. Yet, social dependency also comes at a cost. Perceived social isolation, or loneliness, affects physical and mental health, cognitive performance, overall life expectancy, and increases vulnerability to Alzheimer’s disease-related dementias. Despite severe consequences on behavior and health, the neural basis of loneliness remains elusive. Using the UK Biobank population imaging-genetics cohort (n = ~40,000, aged 40–69 years when recruited, mean age = 54.9), we test for signatures of loneliness in grey matter morphology, intrinsic functional coupling, and fiber tract microstructure. The loneliness-linked neurobiological profiles converge on a collection of brain regions known as the ‘default network’. This higher associative network shows more consistent loneliness associations in grey matter volume than other cortical brain networks. Lonely individuals display stronger functional communication in the default network, and greater microstructural integrity of its fornix pathway. The findings fit with the possibility that the up-regulation of these neural circuits supports mentalizing, reminiscence and imagination to fill the social void.

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Pattern learning reveals brain asymmetry to be linked to socioeconomic status

Poeppl

Dimas

Sakreida

et al. 2022

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Socioeconomic status (SES) anchors individuals in their social network layers. Our embedding in the societal fabric resonates with habitus, world view, opportunity, and health disparity. It remains obscure how distinct facets of SES are reflected in the architecture of the central nervous system. Here, we capitalized on multivariate multi-output learning algorithms to explore possible imprints of SES in gray and white matter structure in the wider population (n ≈ 10,000 UK Biobank participants). Individuals with higher SES, compared to those with lower SES, showed a pattern of increased region volumes in the left brain and decreased region volumes in the right brain. The analogous lateralization pattern emerged for the fiber structure of anatomical white matter tracts. Our multimodal findings suggest hemispheric asymmetry as an SES-related brain signature, which was consistent across six different indicators of SES: degree, education, income, job, neighborhood, and vehicle count. Hence, hemispheric specialization may have evolved in human primates in a way that reveals crucial links to socioeconomic status.

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Publisher Correction: The default network of the human brain is associated with perceived social isolation

et al. 2021

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The original version of this Article contained an error in the Peer review information. The Peer review information section originally incorrectly read: "Nature Communications thanks Meghan Meyer, Theodore Satterthwaite and the other, anonymous, reviewer(s) for their contribution to the peer review of this work. Peer reviewer reports are available." The correct version states: "Nature Communications thanks Meghan Meyer, Theodore Satterthwaite and the other, anonymous, reviewer(s) for their contribution to the peer review of this work." This has been corrected in both the PDF and HTML versions of the Article.

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Measuring the dynamic engagement with a system of equations – Theory demonstration and initial analysis

Paula

Dimas

Laroche

et al. 2019

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Emile Dimas

The default network of the human brain is associated with perceived social isolation

Pattern learning reveals brain asymmetry to be linked to socioeconomic status

Publisher Correction: The default network of the human brain is associated with perceived social isolation

Measuring the dynamic engagement with a system of equations – Theory demonstration and initial analysis

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