Taylor A Chamberlain scite author profile

Sustained attention (SA) and working memory (WM) are critical processes, but the brain networks supporting these abilities in development are unknown. We characterized the functional brain architecture of SA and WM in 9- to 11-year-old children and adults. First, we found that adult network predictors of SA generalized to predict individual differences and fluctuations in SA in youth. A WM model predicted WM performance both across and within children—and captured individual differences in later recognition memory—but underperformed in youth relative to adults. We next characterized functional connections differentially related to SA and WM in youth compared to adults. Results revealed 2 network configurations: a dominant architecture predicting performance in both age groups and a secondary architecture, more prominent for WM than SA, predicting performance in each age group differently. Thus, functional connectivity (FC) predicts SA and WM in youth, with networks predicting WM performance differing more between youths and adults than those predicting SA.

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Resting-state functional connectivity identifies individuals and predicts age in 8-to-26-month-olds

Kardan

Kaplan

Wheelock

et al. 2022

Developmental Cognitive Neuroscience

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Connectome-based predictions reveal developmental change in the functional architecture of sustained attention and working memory

Kardan

Stier

Cardenas-Inigues

et al. 2021

Preprint

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Sustained attention and working memory are central cognitive processes that vary between individuals, fluctuate over time, and have consequences for life and health outcomes. Here we characterize the functional brain architecture of these abilities in 9-11-year-old children using models based on functional magnetic resonance imaging functional connectivity. Using data from the Adolescent Brain Cognitive Development (ABCD) Study, we asked whether connectome-based models built to predict sustained attention and working memory in adults generalize to capture inter- and intra-individual differences in sustained attention and working memory performance in youth. Results revealed that a predefined connectome-based model of sustained attention predicted children's performance on the 0-back task, an attentionally taxing low-working-memory-load task. A predefined connectome-based model of working memory, on the other hand, also predicted performance on the 2-back task, an attentionally taxing high-working-memory-load task. The sustained attention model's predictive power was comparable to that achieved when predicting adults' 0-back performance and by a connectome-based model of cognition defined in the ABCD sample itself. Finally, the working memory model predicted children's recognition memory for n-back task stimuli. Together these results demonstrate that connectome-based models of sustained attention and working memory generalize to youth, reflecting the functional architecture of these processes in the developing brain.

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BIBSNet: A Deep Learning Baby Image Brain Segmentation Network for MRI Scans

Hendrickson

Reiners

Moore

et al. 2023

Preprint

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Objectives: Brain segmentation of infant magnetic resonance (MR) images is vitally important in studying developmental mental health and disease. The infant brain undergoes many changes throughout the first years of postnatal life, making tissue segmentation difficult for most existing algorithms. Here, we introduce a deep neural network BIBSNet (Baby and Infant Brain Segmentation Neural Network), an open-source, community-driven model that relies on data augmentation and a large sample size of manually annotated images to facilitate the production of robust and generalizable brain segmentations. Experimental Design: Included in model training and testing were MR brain images on 84 participants with an age range of 0-8 months (median postmenstrual ages of 13.57 months). Using manually annotated real and synthetic segmentation images, the model was trained using a 10-fold cross-validation procedure. Testing occurred on MRI data processed with the DCAN labs infant-ABCD-BIDS processing pipeline using segmentations produced from gold standard manual annotation, joint-label fusion (JLF), and BIBSNet to assess model performance. Principal Observations: Using group analyses, results suggest that cortical metrics produced using BIBSNet segmentations outperforms JLF segmentations. Additionally, when analyzing individual differences, BIBSNet segmentations perform even better. Conclusions: BIBSNet segmentation shows marked improvement over JLF segmentations across all age groups analyzed. The BIBSNet model is 600x faster compared to JLF and can be easily included in other processing pipelines.

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Propofol selectively modulates functional connectivity signatures of sustained attention during rest and narrative listening

Chamberlain

Rosenberg

2022

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Sustained attention is a critical cognitive function reflected in an individual’s whole-brain pattern of functional magnetic resonance imaging functional connectivity. However, sustained attention is not a purely static trait. Rather, attention waxes and wanes over time. Do functional brain networks that underlie individual differences in sustained attention also underlie changes in attentional state? To investigate, we replicate the finding that a validated connectome-based model of individual differences in sustained attention tracks pharmacologically induced changes in attentional state. Specifically, preregistered analyses revealed that participants exhibited functional connectivity signatures of stronger attention when awake than when under deep sedation with the anesthetic agent propofol. Furthermore, this effect was relatively selective to the predefined sustained attention networks: propofol administration modulated strength of the sustained attention networks more than it modulated strength of canonical resting-state networks and a network defined to predict fluid intelligence, and the functional connections most affected by propofol sedation overlapped with the sustained attention networks. Thus, propofol modulates functional connectivity signatures of sustained attention within individuals. More broadly, these findings underscore the utility of pharmacological intervention in testing both the generalizability and specificity of network-based models of cognitive function.

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