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https://dora.health.qld.gov.au/qldresearchjspui/handle/1/6996| Title: | Genome-Wide Analyses of Vocabulary Size in Infancy and Toddlerhood: Associations With Attention-Deficit/Hyperactivity Disorder, Literacy, and Cognition-Related Traits | Authors: | Verhoef, E. Allegrini, A. G. Jansen, P. R. Lange, K. Wang, C. A. Morgan, A. T. Ahluwalia, T. S. Symeonides, C. Andreassen, O. A. Bartels, M. Boomsma, D. Dale, P. S. Ehli, E. Fernandez-Orth, D. Guxens, M. Hakulinen, C. Harris, K. M. Haworth, S. de Hoyos, L. Jaddoe, V. Keltikangas-Järvinen, L. Lehtimäki, T. Middeldorp, C. Min, J. L. Mishra, P. P. Njølstad, P. R. Sunyer, J. Tate, A. E. Timpson, N. van der Laan, C. Vrijheid, M. Vuoksimaa, E. Whipp, A. Ystrom, E. Consortium, Action Barwon Infant Study investigator, group Eising, E. Franken, M. C. Hypponen, E. Mansell, T. Olislagers, M. Omerovic, E. Rimfeld, K. Schlag, F. Selzam, S. Shapland, C. Y. Tiemeier, H. Whitehouse, A. J. O. Saffery, R. Bønnelykke, K. Reilly, S. Pennell, C. E. Wake, M. Cecil, C. A. M. Plomin, R. Fisher, S. E. St. Pourcain, B. |
Issue Date: | 2024 | Source: | Biological Psychiatry, 2024 (95) 9 p.859-869 | Pages: | 859-869 | Journal Title: | Biological Psychiatry | Abstract: | Background: The number of words children produce (expressive vocabulary) and understand (receptive vocabulary) changes rapidly during early development, partially due to genetic factors. Here, we performed a meta–genome-wide association study of vocabulary acquisition and investigated polygenic overlap with literacy, cognition, developmental phenotypes, and neurodevelopmental conditions, including attention-deficit/hyperactivity disorder (ADHD). Methods: We studied 37,913 parent-reported vocabulary size measures (English, Dutch, Danish) for 17,298 children of European descent. Meta-analyses were performed for early-phase expressive (infancy, 15–18 months), late-phase expressive (toddlerhood, 24–38 months), and late-phase receptive (toddlerhood, 24–38 months) vocabulary. Subsequently, we estimated single nucleotide polymorphism–based heritability (SNP-h2) and genetic correlations (rg) and modeled underlying factor structures with multivariate models. Results: Early-life vocabulary size was modestly heritable (SNP-h2 = 0.08–0.24). Genetic overlap between infant expressive and toddler receptive vocabulary was negligible (rg = 0.07), although each measure was moderately related to toddler expressive vocabulary (rg = 0.69 and rg = 0.67, respectively), suggesting a multifactorial genetic architecture. Both infant and toddler expressive vocabulary were genetically linked to literacy (e.g., spelling: rg = 0.58 and rg = 0.79, respectively), underlining genetic similarity. However, a genetic association of early-life vocabulary with educational attainment and intelligence emerged only during toddlerhood (e.g., receptive vocabulary and intelligence: rg = 0.36). Increased ADHD risk was genetically associated with larger infant expressive vocabulary (rg = 0.23). Multivariate genetic models in the ALSPAC (Avon Longitudinal Study of Parents and Children) cohort confirmed this finding for ADHD symptoms (e.g., at age 13; rg = 0.54) but showed that the association effect reversed for toddler receptive vocabulary (rg = −0.74), highlighting developmental heterogeneity. Conclusions: The genetic architecture of early-life vocabulary changes during development, shaping polygenic association patterns with later-life ADHD, literacy, and cognition-related traits. | DOI: | 10.1016/j.biopsych.2023.11.025 | Resources: | https://www.embase.com/search/results?subaction=viewrecord&id=L2031350093&from=export http://dx.doi.org/10.1016/j.biopsych.2023.11.025 |
Type: | Article |
| Appears in Sites: | Children's Health Queensland Publications Queensland Health Publications |
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