Your search keyword '"Sarah E. Medland"' showing total 3 results

1. Genetic architecture of the structural connectome

Author

Michael Wainberg, Natalie J. Forde, Salim Mansour, Isabel Kerrebijn, Sarah E. Medland, Colin Hawco, and Shreejoy J. Tripathy

Subjects

Science

Abstract

Abstract Myelinated axons form long-range connections that enable rapid communication between distant brain regions, but how genetics governs the strength and organization of these connections remains unclear. We perform genome-wide association studies of 206 structural connectivity measures derived from diffusion magnetic resonance imaging tractography of 26,333 UK Biobank participants, each representing the density of myelinated connections within or between a pair of cortical networks, subcortical structures or cortical hemispheres. We identify 30 independent genome-wide significant variants after Bonferroni correction for the number of measures studied (126 variants at nominal genome-wide significance) implicating genes involved in myelination (SEMA3A), neurite elongation and guidance (NUAK1, STRN, DPYSL2, EPHA3, SEMA3A, HGF, SHTN1), neural cell proliferation and differentiation (GMNC, CELF4, HGF), neuronal migration (CCDC88C), cytoskeletal organization (CTTNBP2, MAPT, DAAM1, MYO16, PLEC), and brain metal transport (SLC39A8). These variants have four broad patterns of spatial association with structural connectivity: some have disproportionately strong associations with corticothalamic connectivity, interhemispheric connectivity, or both, while others are more spatially diffuse. Structural connectivity measures are highly polygenic, with a median of 9.1 percent of common variants estimated to have non-zero effects on each measure, and exhibited signatures of negative selection. Structural connectivity measures have significant genetic correlations with a variety of neuropsychiatric and cognitive traits, indicating that connectivity-altering variants tend to influence brain health and cognitive function. Heritability is enriched in regions with increased chromatin accessibility in adult oligodendrocytes (as well as microglia, inhibitory neurons and astrocytes) and multiple fetal cell types, suggesting that genetic control of structural connectivity is partially mediated by effects on myelination and early brain development. Our results indicate pervasive, pleiotropic, and spatially structured genetic control of white-matter structural connectivity via diverse neurodevelopmental pathways, and support the relevance of this genetic control to healthy brain function.

Published

2024

2. Changes in sleep patterns in people with a history of depression during the COVID-19 pandemic: a natural experiment

Author

Ian B Hickie, Joanne S Carpenter, Jacob J Crouse, Enda M Byrne, Sarah E Medland, Lucia Colodro-Conde, Richard Parker, Naomi R Wray, Penelope Lind, Brittany L Mitchell, Mirim Shin, and Emiliana Tonini

Subjects

Psychiatry, RC435-571

Abstract

Background The COVID-19 pandemic, while a major stressor, increased flexibility in sleep–wake schedules.Objectives To investigate the impact of the pandemic on sleep patterns in people with a history of depression and identify sociodemographic, clinical or genetic predictors of those impacts.Methods 6453 adults from the Australian Genetics of Depression Study (45±15 years; 75% women) completed surveys before (2016–2018) and during the pandemic (2020–2021). Participants were assigned to ‘short sleep’ (8 hours). We focused on those having prepandemic ‘optimal sleep’.Findings Pre pandemic, the majority (70%, n=4514) reported optimal sleep, decreasing to 49% (n=3189) during the pandemic. Of these, 57% maintained optimal sleep, while 16% (n=725) shifted to ‘short sleep’ and 27% (n=1225) to ‘long sleep’. In group comparisons ‘optimal-to-short sleep’ group had worse prepandemic mental health and increased insomnia (p’s

Published

2024

3. Scientific clickbait: Examining media coverage and readability in genome-wide association research.

Author

José J Morosoli, Lucía Colodro-Conde, Fiona Kate Barlow, and Sarah E Medland

Subjects

Medicine, Science

Abstract

In the present study, we analyzed a large corpus of English-language online media articles covering genome-wide association studies (GWAS), exemplifying the use of computational methods to study science communication in biological sciences. We analyzed trends in media coverage, readability, themes, and mentions of ethical and social issues, in over 5,000 websites published from 2005 to 2018 from 3,555 GWAS publications on 1,943 different traits, identified via GWAS Catalog using a text-mining approach to inform the discussion about genetic literacy and media coverage. We found that 22.9% of GWAS papers received media attention but most were described in language too complex to be understood by the public. Ethical issues are rarely mentioned and mentions of translation are increasing over time. We predicted media attention based on year of publication, number of genetic associations identified, study sample size, and journal impact factor, using a regression model (r2 = 38.7%). We found that chronotype, educational attainment, alcohol and coffee consumption, sexual orientation, tanning, and hair color received substantially more attention than predicted by the regression model. We also evaluated the prevalence of the clickbait "one gene, one disease" headlines (e.g., "Scientists Say They've Found Gene That Causes Breast Cancer") and found that it is declining. In sum, online media coverage of GWAS should be more accessible, introduce more modern genetics terms, and when appropriate, ELSI should be mentioned. Science communication research can benefit from big data and text-mining techniques which allow us to study trends and changes in coverage trends across thousands of media outlets. Results can be explored interactively in a website we have built for this manuscript: https://jjmorosoli.shinyapps.io/newas/.

Published

2024