2018
DOI: 10.1101/291245
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Spatial and Temporal Cortical Variability Track with Age and Affective Experience During Emotion Regulation in Youth

Abstract: Variability is a fundamental feature of human brain activity that is particularly pronounced during development. However, developmental neuroimaging research has only recently begun to move beyond characterizing brain function across development exclusively in terms of magnitude of neural activation to incorporating estimates of variability. No prior neuroimaging study has done so in the domain of emotion regulation. We investigated how age and affective experiences influence spatial and temporal variability i… Show more

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Cited by 3 publications
(3 citation statements)
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“…This represents an important direction for future developmental research on emotion dynamics. Moreira, McLaughlin, and Silvers (2019), in this special issue, tackle the dynamics of emotion regulation variability in youth from ages 8 to 17 years, addressing it from an interdisciplinary affective neuroscience perspective. Specifically, they find that older adolescents show reduced variability in brain activation over the course of an explicit emotion regulation task, in regions of the brain thought to support emotion regulation, such as the dorsomedial and ventrolateral prefrontal cortex.…”
Section: Dynamics Of Emotion Regulationmentioning
confidence: 99%
“…This represents an important direction for future developmental research on emotion dynamics. Moreira, McLaughlin, and Silvers (2019), in this special issue, tackle the dynamics of emotion regulation variability in youth from ages 8 to 17 years, addressing it from an interdisciplinary affective neuroscience perspective. Specifically, they find that older adolescents show reduced variability in brain activation over the course of an explicit emotion regulation task, in regions of the brain thought to support emotion regulation, such as the dorsomedial and ventrolateral prefrontal cortex.…”
Section: Dynamics Of Emotion Regulationmentioning
confidence: 99%
“…To test this, we re-extracted multivariate patterns from the NAcc and lPFC and computed Gini coefficients for each region for each trial. Traditionally used in macroeconomics but recently applied in neuroscience (Guest and Love, 2017;Guassi Moreira et al, 2019), Gini coefficients in this context can describe the extent to which brain activity in a given region is homogeneous (uniform) or heterogeneous. Indeed, as shown in Table 6, a lower Gini coefficient in the NAcc (i.e., more uniform activation) was associated with an increased propensity to take risks on the YLG, suggesting a strong, one-dimensional encoding of value signatures during decision-making.…”
Section: Switchboardmentioning
confidence: 99%
“…To test this, we re-extracted multivariate patterns from the NAcc and lPFC and computed Gini coefficients for each region for each trial. Traditionally used in macroeconomics but recently applied in neuroscience (59,60), Gini coefficients in this context can describe the extent to which brain activity in a given region is homogenous (uniform) or heterogeneous. Indeed, as shown in Supplementary Table 6, a lower Gini coefficient in the NAcc (i.e., more uniform activation) was associated with an increased propensity to take risks on the YLG, suggesting a strong, one-dimensional encoding of value signatures during decision-making.…”
Section: Switchboardmentioning
confidence: 99%