The independent and interacting effects of socioeconomic status and dual‐language use on brain structure and cognition

Brito, Natalie H.; Noble, Kimberly G.

doi:10.1111/desc.12688

Cited by 45 publications

(44 citation statements)

References 102 publications

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“…Consistent with several previous investigations of the associations of socioeconomic status (SES) with gray matter morphology in samples spanning wide age ranges (Brito & Noble, 2018;Brito et al, 2017;McDermott et al, 2019;Noble et al, 2015), we found that INR was associated with volume in several areas of the association cortex. Specifically, we found that cortical regions associated with language, mentalizing, theory of mind, and emotion (Yarkoni et al, 2011)-including areas of the fusiform gyrus, inferior frontal gyrus, middle frontal gyrus, superior frontal gyrus, and inferior and superior temporal gyri-were sensitive to INR in FAMILY INCOME, BRAIN VOLUME, ADOLESCENCE 23 interaction with biological sex in early adolescence and/or longitudinally from early to later adolescence.…”

Section: Discussionsupporting

confidence: 91%

“…Previous studies have used whole-brain approaches to examine the associations between SES and cortical thickness and surface area. In large samples of children, adolescents, and young adults from the multi-site Pediatric Imaging, Neurocognition, and Genetics study, higher family income was associated with greater cortical surface area, with the strongest effects in brain regions that support language and executive function, including the bilateral inferior temporal, insula and inferior frontal gyri, and in the right occipital and medial prefrontal cortex (Brito & Noble, 2018;Brito, Piccolo, & Noble, 2017;Noble et al, 2015). In a another large sample of participants ages 5-25 years, there were positive associations between SES (family income and parental education) and cortical surface area in regions supporting FAMILY INCOME, BRAIN VOLUME, ADOLESCENCE 5 sensorimotor processing, emotion regulation, language, and memory, including bilateral regions of the lateral prefrontal, anterior cingulate, lateral temporal, and superior parietal lobule (McDermott et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

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Cross-sectional and longitudinal associations of family income-to-needs ratio with cortical and subcortical brain volume in adolescent boys and girls

King

Dennis

Humphreys

et al. 2020

Preprint

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Highlights• Sex-specific associations of SES with neurodevelopment may emerge in adolescence.• We used a whole-brain approach to examine gray and white matter volume.• Sex interacted with SES to explain variation in volume across adolescence.• Sex is an important variable to consider in analyses of SES and brain volume. AbstractDeviations in neurodevelopment may underlie the association between lower childhood socioeconomic status and difficulties in cognitive and socioemotional domains. Most previous investigations of the association between childhood socioeconomic status and brain morphology have used cross-sectional designs with samples that span wide age ranges, occluding effects specific to adolescence. Sex differences in the association between childhood socioeconomic status and neurodevelopment may emerge or intensify during adolescence. We used tensorbased morphometry, a whole brain approach, to examine sex differences in the cross-sectional association between normative variation in family income-to-needs ratio (INR) and cortical and subcortical gray and white matter volume during early adolescence (ages 9-13 years, N=147), as well as in the longitudinal association between in INR and change in volume from early to later adolescence (ages 11-16 years, N=109). Biological sex interacted with INR to explain variation in volume in several areas cross-sectionally and longitudinally. Effects were primarily in cortical gray matter areas, including regions of the association cortex and sensorimotor processing areas. Effect sizes tended to be larger in boys than in girls. Biological sex may be an important variable to consider in analyses of the effects of family income on structural neurodevelopment during adolescence.

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Section: Discussionsupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Cross-sectional and longitudinal associations of family income-to-needs ratio with cortical and subcortical brain volume in adolescent boys and girls

King

Dennis

Humphreys

et al. 2020

Preprint

View full text Add to dashboard Cite

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“…Because 33 out of the 41 children, or 80% our sample, came from low SES environments, this finding supports the recent claim that enhancements in neural functioning associated with dual language experience are not restricted to high SES environments (Krizman, Skoe, & Kraus, 2016). Although we did not have data from enough dual language learners with high SES to test for an interaction between dual language experience and SES, given the recent report of an interaction between these two variables in terms of brain structure (Brito & Noble, 2018), future functional MRI studies with larger cohorts should aim to elucidate the extent to which language experience and SES interact to drive changes in neural variability in cognitive systems during development.…”

Section: Socioeconomic Influences On Neural Activation Variabilitysupporting

confidence: 83%

“…Besides dual language experience, an important factor that influenced neural activation variability was SES. Although examining neural activation variability in relation to SES was not a primary aim of this study, we included this variable as a covariate because of previous work showing that socioeconomic factors such as parental education are associated with brain development and brain-behavior relationships related to reading (Hackman & Farah, 2009;Noble et al, 2015;Noble, Wolmetz, Ochs, Farah, & McCandliss, 2006), as well as decreased neural response consistency to speech sounds (Skoe, Krizman, & Kraus, 2013), and furthermore can interact with dual language experience to influence brain structure and cognition (Brito & Noble, 2018). The current pattern of results was such that lower SES was associated with a reduction in neural activation variability within the same cortical region that showed enhancements in relation to dual language experience.…”

Section: Socioeconomic Influences On Neural Activation Variabilitymentioning

confidence: 99%

Dual language experience enhances neural activation variability during an fMRI reading and language task

Malins

D’Silva

Luk

et al. 2018

Preprint

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Previous work has shown that experience speaking more than one language in childhood is associated with decreased intra-individual neural variability in electrophysiological responses during a low-level speech perception task. However, no study has yet evaluated the impact of dual language experience on variability in fMRI responses during a higher-level spoken and written language processing task. In the current study, we calculated trial-by-trial variability in neural activation during an fMRI task that involved deciding whether spoken or printed English words matched pictures of items. We compared trial-by-trial neural activation variability between two groups of 8-15 year-old children: a group of dual language learners (N = 24; 11 female) who were Spanish-dominant and acquiring English, and a group of monolingual learners who were English-dominant (N = 17; 9 female). We found that when controlling for a variety of language, general cognitive, and demographic measures, neural activation variability for printed words was greater in the dual language learners compared to the monolingual learners in the right middle frontal gyrus, a brain region previously associated with attentional control. This finding highlights how neural variability offers a window of opportunity to examine experience-dependent mechanisms during human development, and motivates future research on bilingual language processing.

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“…In another study that tested effects of bilingualism on grey matter, Brito and Noble (2018) compared cortical thickness and surface area between monolinguals and bilinguals, aged between 3 and 21 years. Several covariates were included in their analyses, including age, sex, socioeconomic status, and genetic ancestry.…”

Section: Bilingualism and Brain Developmentmentioning

confidence: 99%

The effect of bilingualism on brain development from early childhood to young adulthood

Pliatsikas¹,

Meteyard²,

Veríssimo³

et al. 2020

Preprint

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Bilingualism affects the structure of the brain in adults. This is indicated by experience-dependent gray and white matter changes in brain structures implicated in language learning, processing, or control. However, limited evidence exists on how bilingualism may influence brain development. We examined the developmental trajectories of both grey and white matter structures in a cross-sectional study of a large sample (N=711 for grey matter, N=637 for white matter) of bilingual and monolingual participants, aged 3-21 years. Metrics of grey matter (thickness, volume, surface area) and white matter (fractional anisotropy, mean diffusivity) were examined across 41 cortical and subcortical brain structures and 20 tracts, respectively. We used generalised additive modelling to analyse whether, how, and where the developmental trajectories of bilinguals and monolinguals might differ. Bilingual and monolingual participants manifested distinct developmental trajectories in both gray and white matter structures. As compared to monolinguals, bilinguals showed: a) more gray matter (less developmental loss) starting during late childhood and adolescence, mainly in frontal and parietal regions (particularly in inferior frontal gyrus pars opercularis, superior frontal cortex, inferior and superior parietal cortex, and the precuneus); and b) higher white matter integrity (greater developmental increase) starting during mid-late adolescence, specifically in striatal-inferior frontal fibers. The data suggest that there may be a developmental basis to the well-documented structural differences in the brain between bilingual and monolingual adults. Highlights• Bilingual/monolingual brain differences are clear in adults but not in development • We examined bilingual/monolingual brain development in a large sample, aged 3-21 • The results revealed that during development bilinguals (vs. monolinguals) show: • a) reduced cortical gray matter loss, especially in frontal and parietal regions • b) greater white matter integrity in striatal-inferior frontal fibers Keywords Bilingualism, brain development, grey matter, white matter, generalised additive models

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The independent and interacting effects of socioeconomic status and dual‐language use on brain structure and cognition

Cited by 45 publications

References 102 publications

Cross-sectional and longitudinal associations of family income-to-needs ratio with cortical and subcortical brain volume in adolescent boys and girls

Cross-sectional and longitudinal associations of family income-to-needs ratio with cortical and subcortical brain volume in adolescent boys and girls

Dual language experience enhances neural activation variability during an fMRI reading and language task

The effect of bilingualism on brain development from early childhood to young adulthood

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