Your search keyword '"Norbom, Linn B."' showing total 5 results

1. Assessing the Longitudinal Associations Between Decision-Making Processes and Attention Problems in Early Adolescence

Author

Wiker, Thea, Pedersen, Mads L., Ferschmann, Lia, Beck, Dani, Norbom, Linn B., Dahl, Andreas, von Soest, Tilmann, Agartz, Ingrid, Andreassen, Ole A., Moberget, Torgeir, Westlye, Lars T., Huster, Rene J., and Tamnes, Christian K.

Published

2024

2. Parental education and income are linked to offspring cortical brain structure and psychopathology at 9–11 years.

Author

Norbom, Linn B., Rokicki, Jaroslav, Eilertsen, Espen M., Wiker, Thea, Hanson, Jamie, Dahl, Andreas, Alnæs, Dag, Fernández‐Cabello, Sara, Beck, Dani, Agartz, Ingrid, Andreassen, Ole A., Westlye, Lars T., and Tamnes, Christian K.

Subjects

*BRAIN anatomy, *INCOME, *PATHOLOGICAL psychology, *INDEPENDENT component analysis, *POOR families

Abstract

Background: A child's socioeconomic environment can shape central aspects of their life, including vulnerability to mental disorders. Negative environmental influences in youth may interfere with the extensive and dynamic brain development occurring at this time. Indeed, there are numerous yet diverging reports of associations between parental socioeconomic status (SES) and child cortical brain morphometry. Most of these studies have used single metric‐ or unimodal analyses of standard cortical morphometry that downplay the probable scenario where numerous biological pathways in sum account for SES‐related cortical differences in youth. Methods: To comprehensively capture such variability, using data from 9758 children aged 8.9–11.1 years from the ABCD Study®, we employed linked independent component analysis (LICA) and fused vertex‐wise cortical thickness, surface area, curvature and grey‐/white‐matter contrast (GWC). LICA revealed 70 uni‐ and multimodal components. We then assessed the linear relationships between parental education, parental income and each of the cortical components, controlling for age, sex, genetic ancestry, and family relatedness. We also assessed whether cortical structure moderated the negative relationships between parental SES and child general psychopathology. Results: Parental education and income were both associated with larger surface area and higher GWC globally, in addition to local increases in surface area and to a lesser extent bidirectional GWC and cortical thickness patterns. The negative relation between parental income and child psychopathology were attenuated in children with a multimodal pattern of larger frontal‐ and smaller occipital surface area, and lower medial occipital thickness and GWC. Conclusion: Structural brain MRI is sensitive to SES diversity in childhood, with GWC emerging as a particularly relevant marker together with surface area. In low‐income families, having a more developed cortex across MRI metrics, appears beneficial for mental health. [ABSTRACT FROM AUTHOR]

Published

2024

3. The importance of timing of socioeconomic disadvantage throughout development for depressive symptoms and brain structure.

Author

Ferschmann, Lia, Grydeland, Håkon, MacSweeney, Niamh, Beck, Dani, Bos, Marieke G.N., Norbom, Linn B., Aksnes, Eira R., Bekkhus, Mona, Havdahl, Alexandra, Crone, Eveline A., von Soest, Tilmann, and Tamnes, Christian K.

Abstract

Prior studies have reported associations between socioeconomic disadvantage, brain structure and mental health outcomes, but the timing of these relations is not well understood. Using prospective longitudinal data from the Avon Longitudinal Study of Parents and Children (ALSPAC), this preregistered study examined whether socioeconomic disadvantage related differentially to depressive symptoms (n=3012–3530) and cortical and subcortical structures (n=460–733) in emerging adults, depending on the timing of exposure to socioeconomic disadvantage. Family income in early childhood and own income measured concurrently were both significantly related to depressive symptoms in emerging adulthood. Similar results were observed for perceived financial strain. In contrast, only family income in early childhood was associated with brain structure in emerging adulthood, with positive associations with intracranial volume and total and regional cortical surface area. The findings suggest that both objective and subjective aspects of one's financial standing throughout development relate to depressive symptoms in adulthood, but that specifically early life family income is related to brain structural features in emerging adulthood. This suggests that associations between socioeconomic disadvantage and brain structure originate early in neurodevelopment, highlighting the role of timing of socioeconomic disadvantage. [ABSTRACT FROM AUTHOR]

Published

2024

4. Puberty differentially predicts brain maturation in male and female youth: A longitudinal ABCD Study.

Author

Beck, Dani, Ferschmann, Lia, MacSweeney, Niamh, Norbom, Linn B., Wiker, Thea, Aksnes, Eira, Karl, Valerie, Dégeilh, Fanny, Holm, Madelene, Mills, Kathryn L., Andreassen, Ole A., Agartz, Ingrid, Westlye, Lars T., von Soest, Tilmann, and Tamnes, Christian K.

Abstract

Research has demonstrated associations between pubertal development and brain maturation. However, existing studies have been limited by small samples, cross-sectional designs, and inconclusive findings regarding directionality of effects and sex differences. We examined the longitudinal temporal coupling of puberty status assessed using the Pubertal Development Scale (PDS) and magnetic resonance imaging (MRI)-based grey and white matter brain structure. Our sample consisted of 8896 children and adolescents at baseline (mean age = 9.9) and 6099 at follow-up (mean age = 11.9) from the Adolescent Brain and Cognitive Development (ABCD) Study cohort. Applying multigroup Bivariate Latent Change Score (BLCS) models, we found that baseline PDS predicted the rate of change in cortical thickness among females and rate of change in cortical surface area for both males and females. We also found a correlation between baseline PDS and surface area and co-occurring changes over time in males. Diffusion tensor imaging (DTI) analyses revealed correlated change between PDS and fractional anisotropy (FA) for both males and females, but no significant associations for mean diffusivity (MD). Our results suggest that pubertal status predicts cortical maturation, and that the strength of the associations differ between sex. Further research spanning the entire duration of puberty is needed to understand the extent and contribution of pubertal development on the youth brain. [ABSTRACT FROM AUTHOR]

Published

2023

5. Associations between brain imaging and polygenic scores of mental health and educational attainment in children aged 9–11.

Author

Fernandez-Cabello, Sara, Alnæs, Dag, van der Meer, Dennis, Dahl, Andreas, Holm, Madelene, Kjelkenes, Rikka, Maximov, Ivan I., Norbom, Linn B., Pedersen, Mads L., Voldsbekk, Irene, Andreassen, Ole A., and Westlye, Lars T.

Subjects

*EDUCATIONAL attainment, *BRAIN imaging, *MENTAL health, *AUTISM spectrum disorders, *PRINCIPAL components analysis

Abstract

Psychiatric disorders are highly heritable and polygenic, and many have their peak onset in late childhood and adolescence, a period of tremendous changes. Although the neurodevelopmental antecedents of mental illness are widely acknowledged, research in youth population cohorts is still scarce, preventing our progress towards the early characterization of these disorders. We included 7,124 children (9–11 years old) from the Adolescent Brain and Cognitive Development Study to map the associations of structural and diffusion brain imaging with common genetic variants and polygenic scores for psychiatric disorders and educational attainment. We used principal component analysis to derive imaging components, and calculated their heritability. We then assessed the relationship of imaging components with genetic and clinical psychiatric risk with univariate models and Canonical correlation analysis (CCA). Most imaging components had moderate heritability. Univariate models showed limited evidence and small associations of polygenic scores with brain structure at this age. CCA revealed two significant modes of covariation. The first mode linked higher polygenic scores for educational attainment with less externalizing problems and larger surface area. The second mode related higher polygenic scores for schizophrenia, bipolar disorder, and autism spectrum disorder to higher global cortical thickness, smaller white matter volumes of the fornix and cingulum, larger medial occipital surface area and smaller surface area of lateral and medial temporal regions. While cross-validation suggested limited generalizability, our results highlight the potential of multivariate models to better understand the transdiagnostic and distributed relationships between mental health and brain structure in late childhood. [ABSTRACT FROM AUTHOR]

Published

2022