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3. Adolescent civic engagement: Lessons from Black Lives Matter

Author

Baskin-Sommers, Arielle, Simmons, Cortney, Conley, May, Chang, Shou-An, Estrada, Suzanne, Collins, Meghan, Pelham, William, Beckford, Emil, Mitchell-Adams, Haley, Berrian, Nia, Tapert, Susan F, Gee, Dylan G, and Casey, BJ

Subjects
Paediatrics, Biomedical and Clinical Sciences, Human Society, Pediatric, Mental Health, Clinical Research, Generic health relevance, Adolescent, Black or African American, Child, Emotions, Exposure to Violence, Female, Humans, Male, Mass Gatherings, Police, Politics, Social Media, Social Participation, Surveys and Questionnaires, United States, Black Lives Matter, adolescents, demonstrations, race
Abstract

In 2020, individuals of all ages engaged in demonstrations condemning police brutality and supporting the Black Lives Matter (BLM) movement. Research that used parent reports and trends commented on in popular media suggested that adolescents under 18 had become increasingly involved in this movement. In the first large-scale quantitative survey of adolescents' exposure to BLM demonstrations, 4,970 youth (meanage = 12.88 y) across the United States highlighted that they were highly engaged, particularly with media, and experienced positive emotions when exposed to the BLM movement. In addition to reporting strong engagement and positive emotions related to BLM demonstrations, Black adolescents in particular reported higher negative emotions when engaging with different types of media and more exposure to violence during in-person BLM demonstrations. Appreciating youth civic engagement, while also providing support for processing complex experiences and feelings, is important for the health and welfare of young people and society.

Published
2021

4. Substance use patterns in 9-10 year olds: Baseline findings from the adolescent brain cognitive development (ABCD) study

Author

Lisdahl, Krista M, Tapert, Susan, Sher, Kenneth J, Gonzalez, Raul, Nixon, Sara Jo, Ewing, Sarah W Feldstein, Conway, Kevin P, Wallace, Alex, Sullivan, Ryan, Hatcher, Kelah, Kaiver, Christine, Thompson, Wes, Reuter, Chase, Bartsch, Hauke, Wade, Natasha E, Jacobus, Joanna, Albaugh, MD, Allgaier, N, Anokhin, AP, Bagot, K, Baker, FC, Banich, MT, Barch, DM, Baskin-Sommers, A, Breslin, FJ, Brown, SA, Calhoun, V, Casey, BJ, Chaarani, B, Chang, L, Clark, DB, Cloak, C, Constable, RT, Cottler, LB, Dagher, RK, Dapretto, M, Dick, A, Do, EK, Dosenbach, NUF, Dowling, GJ, Fair, DA, Florsheim, P, Foxe, JJ, Freedman, EG, Friedman, NP, Garavan, HP, Gee, DG, Glantz, MD, Glaser, P, Gonzalez, MR, Gray, KM, Grant, S, Haist, F, Hawes, S, Heeringa, SG, Hermosillo, R, Herting, MM, Hettema, JM, Hewitt, JK, Heyser, C, Hoffman, EA, Howlett, KD, Huber, RS, Huestis, MA, Hyde, LW, Iacono, WG, Isaiah, A, Ivanova, MY, James, RS, Jernigan, TL, Karcher, NR, Kuperman, JM, Laird, AR, Larson, CL, LeBlanc, KH, Lopez, MF, Luciana, M, Luna, B, Maes, HH, Marshall, AT, Mason, MJ, McGlade, E, Morris, AS, Mulford, C, Nagel, BJ, Neigh, G, Palmer, CE, Paulus, MP, Pecheva, D, Prouty, D, Potter, A, Puttler, LI, Rajapakse, N, Ross, JM, Sanchez, M, Schirda, C, Schulenberg, J, Sheth, C, Shilling, PD, and Sowell, ER

Subjects
Paediatrics, Biomedical and Clinical Sciences, Neurosciences, Alcoholism, Alcohol Use and Health, Basic Behavioral and Social Science, Substance Misuse, Brain Disorders, Social Determinants of Health, Behavioral and Social Science, Health Disparities, Mental Health, Pediatric, Clinical Research, Women's Health, Prevention, Drug Abuse (NIDA only), Minority Health, Underage Drinking, 2.3 Psychological, social and economic factors, Stroke, Mental health, Oral and gastrointestinal, Cancer, Good Health and Well Being, Adolescent, Adult, Brain, Child, Child, Preschool, Cognition, Humans, Longitudinal Studies, Prospective Studies, Substance-Related Disorders, ABCD study, Alcohol, Cannabis, Nicotine, Caffeine, Externalizing behaviors, Alcohol sipping, Children, ABCD Consortium, Medical and Health Sciences, Psychology and Cognitive Sciences, Substance Abuse, Biochemistry and cell biology, Pharmacology and pharmaceutical sciences, Epidemiology
Abstract

BackgroundThe Adolescent Brain Cognitive Development ™ Study (ABCD Study®) is an open-science, multi-site, prospective, longitudinal study following over 11,800 9- and 10-year-old youth into early adulthood. The ABCD Study aims to prospectively examine the impact of substance use (SU) on neurocognitive and health outcomes. Although SU initiation typically occurs during teen years, relatively little is known about patterns of SU in children younger than 12.MethodsThis study aims to report the detailed ABCD Study® SU patterns at baseline (n = 11,875) in order to inform the greater scientific community about cohort's early SU. Along with a detailed description of SU, we ran mixed effects regression models to examine the association between early caffeine and alcohol sipping with demographic factors, externalizing symptoms and parental history of alcohol and substance use disorders (AUD/SUD).Primary resultsAt baseline, the majority of youth had used caffeine (67.6 %) and 22.5 % reported sipping alcohol (22.5 %). There was little to no reported use of other drug categories (0.2 % full alcohol drink, 0.7 % used nicotine,

Published
2021

5. Baseline brain function in the preadolescents of the ABCD Study

Author

Chaarani, B, Hahn, S, Allgaier, N, Adise, S, Owens, MM, Juliano, AC, Yuan, DK, Loso, H, Ivanciu, A, Albaugh, MD, Dumas, J, Mackey, S, Laurent, J, Ivanova, M, Hagler, DJ, Cornejo, MD, Hatton, S, Agrawal, A, Aguinaldo, L, Ahonen, L, Aklin, W, Anokhin, AP, Arroyo, J, Avenevoli, S, Babcock, D, Bagot, K, Baker, FC, Banich, MT, Barch, DM, Bartsch, H, Baskin-Sommers, A, Bjork, JM, Blachman-Demner, D, Bloch, M, Bogdan, R, Bookheimer, SY, Breslin, F, Brown, S, Calabro, FJ, Calhoun, V, Casey, BJ, Chang, L, Clark, DB, Cloak, C, Constable, RT, Constable, K, Corley, R, Cottler, LB, Coxe, S, Dagher, RK, Dale, AM, Dapretto, M, Delcarmen-Wiggins, R, Dick, AS, Do, EK, Dosenbach, NUF, Dowling, GJ, Edwards, S, Ernst, TM, Fair, DA, Fan, CC, Feczko, E, Feldstein-Ewing, SW, Florsheim, P, Foxe, JJ, Freedman, EG, Friedman, NP, Friedman-Hill, S, Fuemmeler, BF, Galvan, A, Gee, DG, Giedd, J, Glantz, M, Glaser, P, Godino, J, Gonzalez, M, Gonzalez, R, Grant, S, Gray, KM, Haist, F, Harms, MP, Hawes, S, Heath, AC, Heeringa, S, Heitzeg, MM, Hermosillo, R, Herting, MM, Hettema, JM, Hewitt, JK, Heyser, C, Hoffman, E, Howlett, K, Huber, RS, Huestis, MA, Hyde, LW, Iacono, WG, Infante, MA, Irfanoglu, O, Isaiah, A, and Iyengar, S

Subjects
Biological Psychology, Cognitive and Computational Psychology, Psychology, Behavioral and Social Science, Pediatric, Neurosciences, Clinical Research, Mind and Body, Basic Behavioral and Social Science, Biomedical Imaging, Mental Health, Brain Disorders, 1.2 Psychological and socioeconomic processes, 1.1 Normal biological development and functioning, Neurological, Mental health, Adolescent, Adolescent Development, Brain, Child, Female, Humans, Magnetic Resonance Imaging, Male, Reference Values, ABCD Consortium, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology
Abstract

The Adolescent Brain Cognitive Development (ABCD) Study® is a 10-year longitudinal study of children recruited at ages 9 and 10. A battery of neuroimaging tasks are administered biennially to track neurodevelopment and identify individual differences in brain function. This study reports activation patterns from functional MRI (fMRI) tasks completed at baseline, which were designed to measure cognitive impulse control with a stop signal task (SST; N = 5,547), reward anticipation and receipt with a monetary incentive delay (MID) task (N = 6,657) and working memory and emotion reactivity with an emotional N-back (EN-back) task (N = 6,009). Further, we report the spatial reproducibility of activation patterns by assessing between-group vertex/voxelwise correlations of blood oxygen level-dependent (BOLD) activation. Analyses reveal robust brain activations that are consistent with the published literature, vary across fMRI tasks/contrasts and slightly correlate with individual behavioral performance on the tasks. These results establish the preadolescent brain function baseline, guide interpretation of cross-sectional analyses and will enable the investigation of longitudinal changes during adolescent development.

Published
2021

6. Individual Differences in Cognitive Performance Are Better Predicted by Global Rather Than Localized BOLD Activity Patterns Across the Cortex

Author

Zhao, Weiqi, Palmer, Clare E, Thompson, Wesley K, Chaarani, Bader, Garavan, Hugh P, Casey, BJ, Jernigan, Terry L, Dale, Anders M, and Fan, Chun Chieh

Subjects
Biological Psychology, Psychology, Basic Behavioral and Social Science, Brain Disorders, Biomedical Imaging, Neurosciences, Behavioral and Social Science, Neurological, Bayes Theorem, Brain Mapping, Cerebral Cortex, Cognition, Humans, Individuality, Models, Neurological, behavioral prediction, cognition, distributed effect sizes, individual differences, neuroimaging, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology
Abstract

Despite its central role in revealing the neurobiological mechanisms of behavior, neuroimaging research faces the challenge of producing reliable biomarkers for cognitive processes and clinical outcomes. Statistically significant brain regions, identified by mass univariate statistical models commonly used in neuroimaging studies, explain minimal phenotypic variation, limiting the translational utility of neuroimaging phenotypes. This is potentially due to the observation that behavioral traits are influenced by variations in neuroimaging phenotypes that are globally distributed across the cortex and are therefore not captured by thresholded, statistical parametric maps commonly reported in neuroimaging studies. Here, we developed a novel multivariate prediction method, the Bayesian polyvertex score, that turns a unthresholded statistical parametric map into a summary score that aggregates the many but small effects across the cortex for behavioral prediction. By explicitly assuming a globally distributed effect size pattern and operating on the mass univariate summary statistics, it was able to achieve higher out-of-sample variance explained than mass univariate and popular multivariate methods while still preserving the interpretability of a generative model. Our findings suggest that similar to the polygenicity observed in the field of genetics, the neural basis of complex behaviors may rest in the global patterning of effect size variation of neuroimaging phenotypes, rather than in localized, candidate brain regions and networks.

Published
2021

7. Correspondence Between Perceived Pubertal Development and Hormone Levels in 9-10 Year-Olds From the Adolescent Brain Cognitive Development Study

Author

Herting, Megan M, Uban, Kristina A, Gonzalez, Marybel Robledo, Baker, Fiona C, Kan, Eric C, Thompson, Wesley K, Granger, Douglas A, Albaugh, Matthew D, Anokhin, Andrey P, Bagot, Kara S, Banich, Marie T, Barch, Deanna M, Baskin-Sommers, Arielle, Breslin, Florence J, Casey, BJ, Chaarani, Bader, Chang, Linda, Clark, Duncan B, Cloak, Christine C, Constable, R Todd, Cottler, Linda B, Dagher, Rada K, Dapretto, Mirella, Dick, Anthony S, Dosenbach, Nico, Dowling, Gayathri J, Dumas, Julie A, Edwards, Sarah, Ernst, Thomas, Fair, Damien A, Feldstein-Ewing, Sarah W, Freedman, Edward G, Fuemmeler, Bernard F, Garavan, Hugh, Gee, Dylan G, Giedd, Jay N, Glaser, Paul EA, Goldstone, Aimee, Gray, Kevin M, Hawes, Samuel W, Heath, Andrew C, Heitzeg, Mary M, Hewitt, John K, Heyser, Charles J, Hoffman, Elizabeth A, Huber, Rebekah S, Huestis, Marilyn A, Hyde, Luke W, Infante, M Alejandra, Ivanova, Masha Y, Jacobus, Joanna, Jernigan, Terry L, Karcher, Nicole R, Laird, Angela R, LeBlanc, Kimberly H, Lisdahl, Krista, Luciana, Monica, Luna, Beatriz, Maes, Hermine H, Marshall, Andrew T, Mason, Michael J, McGlade, Erin C, Morris, Amanda S, Nagel, Bonnie J, Neigh, Gretchen N, Palmer, Clare E, Paulus, Martin P, Potter, Alexandra S, Puttler, Leon I, Rajapakse, Nishadi, Rapuano, Kristina, Reeves, Gloria, Renshaw, Perry F, Schirda, Claudiu, Sher, Kenneth J, Sheth, Chandni, Shilling, Paul D, Squeglia, Lindsay M, Sutherland, Matthew T, Tapert, Susan F, Tomko, Rachel L, Yurgelun-Todd, Deborah, Wade, Natasha E, Weiss, Susan RB, Zucker, Robert A, and Sowell, Elizabeth R

Subjects
Paediatrics, Biomedical and Clinical Sciences, Neurosciences, Social Determinants of Health, Clinical Research, Pediatric, Behavioral and Social Science, Basic Behavioral and Social Science, Women's Health, Mental Health, Metabolic and endocrine, Good Health and Well Being, Adolescent, Adolescent Development, Child, Child Development, Cross-Sectional Studies, Dehydroepiandrosterone, Estradiol, Female, Gonadal Steroid Hormones, Humans, Male, Puberty, Self Report, Sexual Maturation, Socioeconomic Factors, Testosterone, adolescent brain cognitive development, salivary hormones, pubertal development scale, puberty, testosterone, dehydroepiandrosterone, estradiol, Clinical Sciences, Nutrition and Dietetics, Clinical sciences
Abstract

AimTo examine individual variability between perceived physical features and hormones of pubertal maturation in 9-10-year-old children as a function of sociodemographic characteristics.MethodsCross-sectional metrics of puberty were utilized from the baseline assessment of the Adolescent Brain Cognitive Development (ABCD) Study-a multi-site sample of 9-10 year-olds (n = 11,875)-and included perceived physical features via the pubertal development scale (PDS) and child salivary hormone levels (dehydroepiandrosterone and testosterone in all, and estradiol in females). Multi-level models examined the relationships among sociodemographic measures, physical features, and hormone levels. A group factor analysis (GFA) was implemented to extract latent variables of pubertal maturation that integrated both measures of perceived physical features and hormone levels.ResultsPDS summary scores indicated more males (70%) than females (31%) were prepubertal. Perceived physical features and hormone levels were significantly associated with child's weight status and income, such that more mature scores were observed among children that were overweight/obese or from households with low-income. Results from the GFA identified two latent factors that described individual differences in pubertal maturation among both females and males, with factor 1 driven by higher hormone levels, and factor 2 driven by perceived physical maturation. The correspondence between latent factor 1 scores (hormones) and latent factor 2 scores (perceived physical maturation) revealed synchronous and asynchronous relationships between hormones and concomitant physical features in this large young adolescent sample.ConclusionsSociodemographic measures were associated with both objective hormone and self-report physical measures of pubertal maturation in a large, diverse sample of 9-10 year-olds. The latent variables of pubertal maturation described a complex interplay between perceived physical changes and hormone levels that hallmark sexual maturation, which future studies can examine in relation to trajectories of brain maturation, risk/resilience to substance use, and other mental health outcomes.

Published
2021

8. Nucleus accumbens cytoarchitecture predicts weight gain in children

Author

Rapuano, Kristina M, Laurent, Jennifer S, Hagler, Donald J, Hatton, Sean N, Thompson, Wesley K, Jernigan, Terry L, Dale, Anders M, Casey, BJ, and Watts, Richard

Subjects
Biological Psychology, Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Psychology, Pediatric, Childhood Obesity, Obesity, Behavioral and Social Science, Nutrition, Basic Behavioral and Social Science, Neurosciences, Prevention, Brain Disorders, Biomedical Imaging, Women's Health, Minority Health, 2.1 Biological and endogenous factors, Cardiovascular, Metabolic and endocrine, Stroke, Oral and gastrointestinal, Cell Count, Child, Diffusion Magnetic Resonance Imaging, Female, Humans, Male, Nucleus Accumbens, Pediatric Obesity, Waist Circumference, Weight Gain, Paediatrics, nucleus accumbens, pediatric obesity, brain development, diffusion, MRI, restriction spectrum imaging, diffusion MRI
Abstract

The prevalence of obesity in children and adolescents worldwide has quadrupled since 1975 and is a key predictor of obesity later in life. Previous work has consistently observed relationships between macroscale measures of reward-related brain regions (e.g., the nucleus accumbens [NAcc]) and unhealthy eating behaviors and outcomes; however, the mechanisms underlying these associations remain unclear. Recent work has highlighted a potential role of neuroinflammation in the NAcc in animal models of diet-induced obesity. Here, we leverage a diffusion MRI technique, restriction spectrum imaging, to probe the microstructure (cellular density) of subcortical brain regions. More specifically, we test the hypothesis that the cell density of reward-related regions is associated with obesity-related metrics and early weight gain. In a large cohort of nine- and ten-year-olds enrolled in the Adolescent Brain Cognitive Development (ABCD) study, we demonstrate that cellular density in the NAcc is related to individual differences in waist circumference at baseline and is predictive of increases in waist circumference after 1 y. These findings suggest a neurobiological mechanism for pediatric obesity consistent with rodent work showing that high saturated fat diets increase gliosis and neuroinflammation in reward-related brain regions, which in turn lead to further unhealthy eating and obesity.

Published
2020

9. Behavioral and Neural Signatures of Working Memory in Childhood

Author

Rosenberg, Monica D, Martinez, Steven A, Rapuano, Kristina M, Conley, May I, Cohen, Alexandra O, Cornejo, M Daniela, Hagler, Donald J, Meredith, Wesley J, Anderson, Kevin M, Wager, Tor D, Feczko, Eric, Earl, Eric, Fair, Damien A, Barch, Deanna M, Watts, Richard, and Casey, BJ

Subjects
Biomedical and Clinical Sciences, Neurosciences, Women's Health, Biomedical Imaging, Pediatric, Mind and Body, Mental Health, Clinical Research, Behavioral and Social Science, Basic Behavioral and Social Science, 1.2 Psychological and socioeconomic processes, Mental health, Brain, Child, Child Development, Female, Humans, Individuality, Longitudinal Studies, Magnetic Resonance Imaging, Male, Memory, Short-Term, development, fMRI, frontoparietal, n-back, working memory, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery
Abstract

Working memory function changes across development and varies across individuals. The patterns of behavior and brain function that track individual differences in working memory during human development, however, are not well understood. Here, we establish associations between working memory, other cognitive abilities, and functional MRI (fMRI) activation in data from over 11,500 9- to 10-year-old children (both sexes) enrolled in the Adolescent Brain Cognitive Development (ABCD) Study, an ongoing longitudinal study in the United States. Behavioral analyses reveal robust relationships between working memory, short-term memory, language skills, and fluid intelligence. Analyses relating out-of-scanner working memory performance to memory-related fMRI activation in an emotional n-back task demonstrate that frontoparietal activity during a working memory challenge indexes working memory performance. This relationship is domain specific, such that fMRI activation related to emotion processing during the emotional n-back task, inhibitory control during a stop-signal task (SST), and reward processing during a monetary incentive delay (MID) task does not track memory abilities. Together, these results inform our understanding of individual differences in working memory in childhood and lay the groundwork for characterizing the ways in which they change across adolescence.SIGNIFICANCE STATEMENT Working memory is a foundational cognitive ability that changes over time and varies across individuals. Here, we analyze data from over 11,500 9- to 10-year-olds to establish relationships between working memory, other cognitive abilities, and frontoparietal brain activity during a working memory challenge, but not during other cognitive challenges. Our results lay the groundwork for assessing longitudinal changes in working memory and predicting later academic and other real-world outcomes.

Published
2020

10. Correspondence Between Perceived Pubertal Development and Hormone Levels in 9-10 Year-Olds From the Adolescent Brain Cognitive Development Study.

Author

Herting, Megan M, Uban, Kristina A, Gonzalez, Marybel Robledo, Baker, Fiona C, Kan, Eric C, Thompson, Wesley K, Granger, Douglas A, Albaugh, Matthew D, Anokhin, Andrey P, Bagot, Kara S, Banich, Marie T, Barch, Deanna M, Baskin-Sommers, Arielle, Breslin, Florence J, Casey, BJ, Chaarani, Bader, Chang, Linda, Clark, Duncan B, Cloak, Christine C, Constable, R Todd, Cottler, Linda B, Dagher, Rada K, Dapretto, Mirella, Dick, Anthony S, Dosenbach, Nico, Dowling, Gayathri J, Dumas, Julie A, Edwards, Sarah, Ernst, Thomas, Fair, Damien A, Feldstein-Ewing, Sarah W, Freedman, Edward G, Fuemmeler, Bernard F, Garavan, Hugh, Gee, Dylan G, Giedd, Jay N, Glaser, Paul EA, Goldstone, Aimee, Gray, Kevin M, Hawes, Samuel W, Heath, Andrew C, Heitzeg, Mary M, Hewitt, John K, Heyser, Charles J, Hoffman, Elizabeth A, Huber, Rebekah S, Huestis, Marilyn A, Hyde, Luke W, Infante, M Alejandra, Ivanova, Masha Y, Jacobus, Joanna, Jernigan, Terry L, Karcher, Nicole R, Laird, Angela R, LeBlanc, Kimberly H, Lisdahl, Krista, Luciana, Monica, Luna, Beatriz, Maes, Hermine H, Marshall, Andrew T, Mason, Michael J, McGlade, Erin C, Morris, Amanda S, Nagel, Bonnie J, Neigh, Gretchen N, Palmer, Clare E, Paulus, Martin P, Potter, Alexandra S, Puttler, Leon I, Rajapakse, Nishadi, Rapuano, Kristina, Reeves, Gloria, Renshaw, Perry F, Schirda, Claudiu, Sher, Kenneth J, Sheth, Chandni, Shilling, Paul D, Squeglia, Lindsay M, Sutherland, Matthew T, Tapert, Susan F, Tomko, Rachel L, Yurgelun-Todd, Deborah, Wade, Natasha E, Weiss, Susan RB, Zucker, Robert A, and Sowell, Elizabeth R

Subjects
Humans, Dehydroepiandrosterone, Testosterone, Estradiol, Gonadal Steroid Hormones, Cross-Sectional Studies, Adolescent Development, Child Development, Puberty, Sexual Maturation, Socioeconomic Factors, Adolescent, Child, Female, Male, Self Report, adolescent brain cognitive development, dehydroepiandrosterone, estradiol, pubertal development scale, puberty, salivary hormones, testosterone, Pediatric, Behavioral and Social Science, Prevention, Pediatric Research Initiative, Clinical Research, Mental Health, Basic Behavioral and Social Science, Contraception/Reproduction, Mental health, Clinical Sciences, Nutrition and Dietetics
Abstract

AimTo examine individual variability between perceived physical features and hormones of pubertal maturation in 9-10-year-old children as a function of sociodemographic characteristics.MethodsCross-sectional metrics of puberty were utilized from the baseline assessment of the Adolescent Brain Cognitive Development (ABCD) Study-a multi-site sample of 9-10 year-olds (n = 11,875)-and included perceived physical features via the pubertal development scale (PDS) and child salivary hormone levels (dehydroepiandrosterone and testosterone in all, and estradiol in females). Multi-level models examined the relationships among sociodemographic measures, physical features, and hormone levels. A group factor analysis (GFA) was implemented to extract latent variables of pubertal maturation that integrated both measures of perceived physical features and hormone levels.ResultsPDS summary scores indicated more males (70%) than females (31%) were prepubertal. Perceived physical features and hormone levels were significantly associated with child's weight status and income, such that more mature scores were observed among children that were overweight/obese or from households with low-income. Results from the GFA identified two latent factors that described individual differences in pubertal maturation among both females and males, with factor 1 driven by higher hormone levels, and factor 2 driven by perceived physical maturation. The correspondence between latent factor 1 scores (hormones) and latent factor 2 scores (perceived physical maturation) revealed synchronous and asynchronous relationships between hormones and concomitant physical features in this large young adolescent sample.ConclusionsSociodemographic measures were associated with both objective hormone and self-report physical measures of pubertal maturation in a large, diverse sample of 9-10 year-olds. The latent variables of pubertal maturation described a complex interplay between perceived physical changes and hormone levels that hallmark sexual maturation, which future studies can examine in relation to trajectories of brain maturation, risk/resilience to substance use, and other mental health outcomes.

Published
2020

11. Image processing and analysis methods for the Adolescent Brain Cognitive Development Study

Author

Hagler, Donald J, Hatton, SeanN, Cornejo, M Daniela, Makowski, Carolina, Fair, Damien A, Dick, Anthony Steven, Sutherland, Matthew T, Casey, BJ, Barch, Deanna M, Harms, Michael P, Watts, Richard, Bjork, James M, Garavan, Hugh P, Hilmer, Laura, Pung, Christopher J, Sicat, Chelsea S, Kuperman, Joshua, Bartsch, Hauke, Xue, Feng, Heitzeg, Mary M, Laird, Angela R, Trinh, Thanh T, Gonzalez, Raul, Tapert, Susan F, Riedel, Michael C, Squeglia, Lindsay M, Hyde, Luke W, Rosenberg, Monica D, Earl, Eric A, Howlett, Katia D, Baker, Fiona C, Soules, Mary, Diaz, Jazmin, de Leon, Octavio Ruiz, Thompson, Wesley K, Neale, Michael C, Herting, Megan, Sowell, Elizabeth R, Alvarez, Ruben P, Hawes, Samuel W, Sanchez, Mariana, Bodurka, Jerzy, Breslin, Florence J, Morris, Amanda Sheffield, Paulus, Martin P, Simmons, W Kyle, Polimeni, Jonathan R, van der Kouwe, Andre, Nencka, Andrew S, Gray, Kevin M, Pierpaoli, Carlo, Matochik, John A, Noronha, Antonio, Aklin, Will M, Conway, Kevin, Glantz, Meyer, Hoffman, Elizabeth, Little, Roger, Lopez, Marsha, Pariyadath, Vani, Weiss, Susan RB, Wolff-Hughes, Dana L, DelCarmen-Wiggins, Rebecca, Ewing, Sarah W Feldstein, Miranda-Dominguez, Oscar, Nagel, Bonnie J, Perrone, Anders J, Sturgeon, Darrick T, Goldstone, Aimee, Pfefferbaum, Adolf, Pohl, Kilian M, Prouty, Devin, Uban, Kristina, Bookheimer, Susan Y, Dapretto, Mirella, Galvan, Adriana, Bagot, Kara, Giedd, Jay, Infante, M Alejandra, Jacobus, Joanna, Patrick, Kevin, Shilling, Paul D, Desikan, Rahul, Li, Yi, Sugrue, Leo, Banich, Marie T, Friedman, Naomi, Hewitt, John K, Hopfer, Christian, Sakai, Joseph, Tanabe, Jody, Cottler, Linda B, Nixon, Sara Jo, Chang, Linda, Cloak, Christine, Ernst, Thomas, Reeves, Gloria, Kennedy, David N, Heeringa, Steve, and Peltier, Scott

Subjects
Biomedical and Clinical Sciences, Health Sciences, Neurosciences, Basic Behavioral and Social Science, Substance Misuse, Brain Disorders, Biomedical Imaging, Behavioral and Social Science, Mental Health, Pediatric, Clinical Research, Drug Abuse (NIDA only), Women's Health, Mental Illness, Mental health, Neurological, Good Health and Well Being, Adolescent, Adolescent Development, Brain, Brain Mapping, Diffusion Magnetic Resonance Imaging, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Multimodal Imaging, Signal Processing, Computer-Assisted, Magnetic resonance imaging, ABCD, Data sharing, Processing pipeline, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery, Biomedical and clinical sciences, Health sciences
Abstract

The Adolescent Brain Cognitive Development (ABCD) Study is an ongoing, nationwide study of the effects of environmental influences on behavioral and brain development in adolescents. The main objective of the study is to recruit and assess over eleven thousand 9-10-year-olds and follow them over the course of 10 years to characterize normative brain and cognitive development, the many factors that influence brain development, and the effects of those factors on mental health and other outcomes. The study employs state-of-the-art multimodal brain imaging, cognitive and clinical assessments, bioassays, and careful assessment of substance use, environment, psychopathological symptoms, and social functioning. The data is a resource of unprecedented scale and depth for studying typical and atypical development. The aim of this manuscript is to describe the baseline neuroimaging processing and subject-level analysis methods used by ABCD. Processing and analyses include modality-specific corrections for distortions and motion, brain segmentation and cortical surface reconstruction derived from structural magnetic resonance imaging (sMRI), analysis of brain microstructure using diffusion MRI (dMRI), task-related analysis of functional MRI (fMRI), and functional connectivity analysis of resting-state fMRI. This manuscript serves as a methodological reference for users of publicly shared neuroimaging data from the ABCD Study.

Published
2019

12. The Adolescent Brain Cognitive Development (ABCD) study: Imaging acquisition across 21 sites

Author

Casey, BJ, Cannonier, Tariq, Conley, May I, Cohen, Alexandra O, Barch, Deanna M, Heitzeg, Mary M, Soules, Mary E, Teslovich, Theresa, Dellarco, Danielle V, Garavan, Hugh, Orr, Catherine A, Wager, Tor D, Banich, Marie T, Speer, Nicole K, Sutherland, Matthew T, Riedel, Michael C, Dick, Anthony S, Bjork, James M, Thomas, Kathleen M, Chaarani, Bader, Mejia, Margie H, Hagler, Donald J, Cornejo, M Daniela, Sicat, Chelsea S, Harms, Michael P, Dosenbach, Nico UF, Rosenberg, Monica, Earl, Eric, Bartsch, Hauke, Watts, Richard, Polimeni, Jonathan R, Kuperman, Joshua M, Fair, Damien A, Dale, Anders M, and Workgroup, the ABCD Imaging Acquisition

Subjects
Cognitive and Computational Psychology, Psychology, Neurosciences, Pediatric, Substance Misuse, Brain Disorders, Biomedical Imaging, Drug Abuse (NIDA only), Good Health and Well Being, Adolescent, Adolescent Development, Brain, Cognition, Female, Humans, Male, Addiction, Adolescence, Development, Impulsivity, Memory, Reward, ABCD Imaging Acquisition Workgroup, Clinical Sciences, Cognitive Sciences, Biological psychology, Clinical and health psychology
Abstract

The ABCD study is recruiting and following the brain development and health of over 10,000 9-10 year olds through adolescence. The imaging component of the study was developed by the ABCD Data Analysis and Informatics Center (DAIC) and the ABCD Imaging Acquisition Workgroup. Imaging methods and assessments were selected, optimized and harmonized across all 21 sites to measure brain structure and function relevant to adolescent development and addiction. This article provides an overview of the imaging procedures of the ABCD study, the basis for their selection and preliminary quality assurance and results that provide evidence for the feasibility and age-appropriateness of procedures and generalizability of findings to the existent literature.

Published
2018

13. Combined effects of peer presence, social cues, and rewards on cognitive control in adolescents

Author

Breiner, Kaitlyn, Li, Anfei, Cohen, Alexandra O, Steinberg, Laurence, Bonnie, Richard J, Scott, Elizabeth S, Taylor‐Thompson, Kim, Rudolph, Marc D, Chein, Jason, Richeson, Jennifer A, Dellarco, Danielle V, Fair, Damien A, Casey, BJ, and Galván, Adriana

Subjects
Biological Psychology, Psychology, Pediatric, Neurosciences, Basic Behavioral and Social Science, Brain Disorders, Clinical Research, Behavioral and Social Science, 1.2 Psychological and socioeconomic processes, Underpinning research, Mental health, Adolescent, Adolescent Behavior, Adult, Cues, Executive Function, Female, Humans, Interpersonal Relations, Magnetic Resonance Imaging, Male, Peer Influence, Prefrontal Cortex, Psychomotor Performance, Reward, Young Adult, adolescents, cognitive control, fMRI, orbitofrontal cortex, peers, reward, Cognitive Sciences, Behavioral Science & Comparative Psychology, Applied and developmental psychology, Biological psychology
Abstract

Developmental scientists have examined the independent effects of peer presence, social cues, and rewards on adolescent decision-making and cognitive control. Yet, these contextual factors often co-occur in real world social situations. The current study examined the combined effects of all three factors on cognitive control, and its underlying neural circuitry, using a task to better capture adolescents' real world social interactions. A sample of 176 participants ages 13-25, was scanned while performing an adapted go/no-go task alone or in the presence of a virtual peer. The task included brief positive social cues and sustained periods of positive arousal. Adolescents showed diminished cognitive control to positive social cues when anticipating a reward in the presence of peers relative to when alone, a pattern not observed in older participants. This behavioral pattern was paralleled by enhanced orbitofrontal activation. The results demonstrate the synergistic impact of social and reward influences on cognitive control in adolescents.

Published
2018

14. vlPFC–vmPFC–Amygdala Interactions Underlie Age-Related Differences in Cognitive Regulation of Emotion

Author

Silvers, Jennifer A, Insel, Catherine, Powers, Alisa, Franz, Peter, Helion, Chelsea, Martin, Rebecca E, Weber, Jochen, Mischel, Walter, Casey, BJ, and Ochsner, Kevin N

Subjects
Biological Psychology, Psychology, Clinical Research, Mental Health, Behavioral and Social Science, Basic Behavioral and Social Science, Mind and Body, Brain Disorders, Neurosciences, 2.1 Biological and endogenous factors, Aetiology, Adolescent, Aging, Amygdala, Brain Mapping, Child, Cognition, Emotions, Female, Follow-Up Studies, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Neural Pathways, Oxygen, Prefrontal Cortex, Young Adult, amygdala, emotion regulation, fMRI, neurodevelopment, prefrontal cortex, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology
Abstract

Emotion regulation is a critical life skill that develops throughout childhood and adolescence. Despite this development in emotional processes, little is known about how the underlying brain systems develop with age. This study examined emotion regulation in 112 individuals (aged 6-23 years) as they viewed aversive and neutral images using a reappraisal task. On "reappraisal" trials, participants were instructed to view the images as distant, a strategy that has been previously shown to reduce negative affect. On "reactivity" trials, participants were instructed to view the images without regulating emotions to assess baseline emotional responding. During reappraisal, age predicted less negative affect, reduced amygdala responses and inverse coupling between the ventromedial prefrontal cortex (vmPFC) and amygdala. Moreover, left ventrolateral prefrontal (vlPFC) recruitment mediated the relationship between increasing age and diminishing amygdala responses. This negative vlPFC-amygdala association was stronger for individuals with inverse coupling between the amygdala and vmPFC. These data provide evidence that vmPFC-amygdala connectivity facilitates vlPFC-related amygdala modulation across development.

Published
2017

15. The transition from childhood to adolescence is marked by a general decrease in amygdala reactivity and an affect-specific ventral-to-dorsal shift in medial prefrontal recruitment

Author

Silvers, Jennifer A, Insel, Catherine, Powers, Alisa, Franz, Peter, Helion, Chelsea, Martin, Rebecca, Weber, Jochen, Mischel, Walter, Casey, BJ, and Ochsner, Kevin N

Subjects
Biological Psychology, Cognitive and Computational Psychology, Psychology, Applied and Developmental Psychology, Mental Health, Behavioral and Social Science, Basic Behavioral and Social Science, Pediatric, Neurosciences, Mind and Body, Aetiology, 2.1 Biological and endogenous factors, Underpinning research, 1.1 Normal biological development and functioning, Mental health, Adolescent, Adult, Amygdala, Child, Emotions, Female, Humans, Male, Neural Pathways, Prefrontal Cortex, Young Adult, Emotion, Neurodevelopment, Prefrontal cortex, Amygdalaf, MRI, fMRI, Clinical Sciences, Cognitive Sciences, Biological psychology, Clinical and health psychology
Abstract

Understanding how and why affective responses change with age is central to characterizing typical and atypical emotional development. Prior work has emphasized the role of the amygdala and prefrontal cortex (PFC), which show age-related changes in function and connectivity. However, developmental neuroimaging research has only recently begun to unpack whether age effects in the amygdala and PFC are specific to affective stimuli or may be found for neutral stimuli as well, a possibility that would support a general, rather than affect-specific, account of amygdala-PFC development. To examine this, 112 individuals ranging from 6 to 23 years of age viewed aversive and neutral images while undergoing fMRI scanning. Across age, participants reported more negative affect and showed greater amygdala responses for aversive than neutral stimuli. However, children were generally more sensitive to both neutral and aversive stimuli, as indexed by affective reports and amygdala responses. At the same time, the transition from childhood to adolescence was marked by a ventral-to-dorsal shift in medial prefrontal responses to aversive, but not neutral, stimuli. Given the role that dmPFC plays in executive control and higher-level representations of emotion, these results suggest that adolescence is characterized by a shift towards representing emotional events in increasingly cognitive terms.

Published
2017

16. At risk of being risky: The relationship between “brain age” under emotional states and risk preference

Author

Rudolph, Marc D, Miranda-Domínguez, Oscar, Cohen, Alexandra O, Breiner, Kaitlyn, Steinberg, Laurence, Bonnie, Richard J, Scott, Elizabeth S, Taylor-Thompson, Kim, Chein, Jason, Fettich, Karla C, Richeson, Jennifer A, Dellarco, Danielle V, Galván, Adriana, Casey, BJ, and Fair, Damien A

Subjects
Biological Psychology, Psychology, Mind and Body, Neurosciences, Behavioral and Social Science, Clinical Research, Biomedical Imaging, Basic Behavioral and Social Science, Prevention, Underpinning research, 1.2 Psychological and socioeconomic processes, Mental health, Neurological, Adolescent, Adult, Brain, Child, Emotions, Female, Humans, Magnetic Resonance Imaging, Male, Risk, Young Adult, Brain age, Emotional state, Risky behavior, Multivariate, Prediction, Pseudo-resting state fMRI, Clinical Sciences, Cognitive Sciences, Biological psychology, Clinical and health psychology
Abstract

Developmental differences regarding decision making are often reported in the absence of emotional stimuli and without context, failing to explain why some individuals are more likely to have a greater inclination toward risk. The current study (N=212; 10-25y) examined the influence of emotional context on underlying functional brain connectivity over development and its impact on risk preference. Using functional imaging data in a neutral brain-state we first identify the "brain age" of a given individual then validate it with an independent measure of cortical thickness. We then show, on average, that "brain age" across the group during the teen years has the propensity to look younger in emotional contexts. Further, we show this phenotype (i.e. a younger brain age in emotional contexts) relates to a group mean difference in risk perception - a pattern exemplified greatest in young-adults (ages 18-21). The results are suggestive of a specified functional brain phenotype that relates to being at "risk to be risky."

Published
2017

17. ADHD and cannabis use in young adults examined using fMRI of a Go/NoGo task.

Author

Rasmussen, Jerod, Casey, BJ, van Erp, Theo GM, Tamm, Leanne, Epstein, Jeffery N, Buss, Claudia, Bjork, James M, Molina, Brooke SG, Velanova, Katerina, Mathalon, Daniel H, Somerville, Leah, Swanson, James M, Wigal, Tim, Arnold, L Eugene, Potkin, Steven G, and MTA Neuroimaging Group

Subjects
MTA Neuroimaging Group, Brain, Humans, Cannabis, Marijuana Abuse, Tobacco Use Disorder, Magnetic Resonance Imaging, Brain Mapping, Longitudinal Studies, Follow-Up Studies, Attention Deficit Disorder with Hyperactivity, Neuropsychological Tests, Adult, Female, Male, Young Adult, Self Report, Inhibition, Psychological, ADHD, Go/NoGo, Inhibition, Marijuana, fMRI, Substance Misuse, Drug Abuse (NIDA only), Pediatric Research Initiative, Cannabinoid Research, Pediatric, Attention Deficit Hyperactivity Disorder (ADHD), Clinical Research, Neurosciences, Behavioral and Social Science, Mental Health, Brain Disorders, Aetiology, 2.1 Biological and endogenous factors, Mental health, Good Health and Well Being, Medical and Health Sciences, Psychology and Cognitive Sciences, Experimental Psychology
Abstract

Children diagnosed with attention-deficit/hyperactivity disorder (ADHD) are at increased risk for substance abuse. Response inhibition is a hallmark of ADHD, yet the combined effects of ADHD and regular substance use on neural networks associated with response inhibition are unknown. Task-based functional Magnetic Resonance Imaging (fMRI) data from young adults with childhood ADHD with (n = 25) and without (n = 25) cannabis use ≥ monthly in the past year were compared with a local normative comparison group (LNCG) with (n = 11) and without (n = 12) cannabis use. Go/NoGo behavioral and fMRI data were evaluated for main and interaction effects of ADHD diagnosis and cannabis use. ADHD participants made significantly more commission errors on NoGo trials than controls. ADHD participants also had less frontoparietal and frontostriatal activity, independent of cannabis use. No main effects of cannabis use on response inhibition or functional brain activation were observed. An interaction of ADHD diagnosis and cannabis use was found in the right hippocampus and cerebellar vermis, with increased recruitment of these regions in cannabis-using controls during correct response inhibition. ADHD participants had impaired response inhibition combined with less fronto-parietal/striatal activity, regardless of cannabis use history. Cannabis use did not impact behavioral response inhibition. Cannabis use was associated with hippocampal and cerebellar activation, areas rich in cannabinoid receptors, in LNCG but not ADHD participants. This may reflect recruitment of compensatory circuitry in cannabis using controls but not ADHD participants. Future studies targeting hippocampal and cerebellar-dependent function in these groups may provide further insight into how this circuitry is altered by ADHD and cannabis use.

Published
2016

18. Gray matter maturation and cognition in children with different APOE &egr; genotypes

Author

Chang, Linda, Douet, Vanessa, Bloss, Cinnamon, Lee, Kristin, Pritchett, Alexandra, Jernigan, Terry L, Akshoomoff, Natacha, Murray, Sarah S, Frazier, Jean, Kennedy, David N, Amaral, David G, Gruen, Jeffrey, Kaufmann, Walter E, Casey, BJ, Sowell, Elizabeth, and Ernst, Thomas

Subjects
Acquired Cognitive Impairment, Neurosciences, Mental Health, Dementia, Pediatric, Aging, Brain Disorders, Genetics, Aetiology, 2.1 Biological and endogenous factors, Mental health, Neurological, Adolescent, Anisotropy, Apolipoprotein E4, Brain, Child, Child, Preschool, Cognition, Cross-Sectional Studies, Female, Genotype, Gray Matter, Humans, Magnetic Resonance Imaging, Male, Neuropsychological Tests, Young Adult, Pediatric Imaging, Neurocognition, and Genetics (PING) Study Consortium, Clinical Sciences, Cognitive Sciences, Neurology & Neurosurgery
Abstract

ObjectiveThe aims of the current study were to determine whether children with the 6 different APOE ε genotypes show differences in gray matter maturation, particularly for those with ε4 and ε2 alleles, which are associated with poorer outcomes in many neurologic disorders.MethodsA total of 1,187 healthy children (aged 3-20 years, 52.1% boys, 47.9% girls) with acceptable data from the cross-sectional Pediatric Imaging Neurocognition and Genetics Study were evaluated for the effects of 6 APOE ε genotypes on macroscopic and microscopic cortical and subcortical gray matter structures (measured with 3-tesla MRI and FreeSurfer for automated morphometry) and on cognition (NIH Toolbox).ResultsAmong APOE ε4 carriers, age-related changes in brain structures and cognition varied depending on genotype, with the smallest hippocampi in ε2ε4 children, the lowest hippocampal fractional anisotropy in younger ε4ε4 children, the largest medial orbitofrontal cortical areas in ε3ε4 children, and age-dependent thinning of the entorhinal cortex in ε4ε4 children. Younger ε4ε4 children had the lowest scores on executive function and working memory, while younger ε2ε4 children performed worse on attention tasks. Larger parietal gyri in the younger ε2ε4 children, and thinner temporal and cingulate isthmus cortices or smaller hippocampi in the younger ε4ε4 children, predicted poorer performance on attention or working memory.ConclusionsOur findings validated and extended prior smaller studies that showed altered brain development in APOE ε4-carrier children. The ε4ε4 and ε2ε4 genotypes may negatively influence brain development and brain aging at the extremes of age. Studying APOE ε polymorphisms in young children may provide the earliest indicators for individuals who might benefit from early interventions or preventive measures for future brain injuries and dementia.

Published
2016

19. Gray matter maturation and cognition in children with different APOE ε genotypes.

Author

Chang, Linda, Douet, Vanessa, Bloss, Cinnamon, Lee, Kristin, Pritchett, Alexandra, Jernigan, Terry L, Akshoomoff, Natacha, Murray, Sarah S, Frazier, Jean, Kennedy, David N, Amaral, David G, Gruen, Jeffrey, Kaufmann, Walter E, Casey, BJ, Sowell, Elizabeth, Ernst, Thomas, and Pediatric Imaging, Neurocognition, and Genetics (PING) Study Consortium

Subjects
Pediatric Imaging, Neurocognition, and Genetics (PING) Study Consortium, Brain, Humans, Magnetic Resonance Imaging, Cross-Sectional Studies, Cognition, Neuropsychological Tests, Aging, Genotype, Anisotropy, Adolescent, Child, Child, Preschool, Female, Male, Apolipoprotein E4, Young Adult, Gray Matter, Pediatric Imaging, Neurocognition, and Genetics (PING) Study Consortium, Preschool, Neurology & Neurosurgery, Clinical Sciences, Neurosciences, Cognitive Sciences
Abstract

ObjectiveThe aims of the current study were to determine whether children with the 6 different APOE ε genotypes show differences in gray matter maturation, particularly for those with ε4 and ε2 alleles, which are associated with poorer outcomes in many neurologic disorders.MethodsA total of 1,187 healthy children (aged 3-20 years, 52.1% boys, 47.9% girls) with acceptable data from the cross-sectional Pediatric Imaging Neurocognition and Genetics Study were evaluated for the effects of 6 APOE ε genotypes on macroscopic and microscopic cortical and subcortical gray matter structures (measured with 3-tesla MRI and FreeSurfer for automated morphometry) and on cognition (NIH Toolbox).ResultsAmong APOE ε4 carriers, age-related changes in brain structures and cognition varied depending on genotype, with the smallest hippocampi in ε2ε4 children, the lowest hippocampal fractional anisotropy in younger ε4ε4 children, the largest medial orbitofrontal cortical areas in ε3ε4 children, and age-dependent thinning of the entorhinal cortex in ε4ε4 children. Younger ε4ε4 children had the lowest scores on executive function and working memory, while younger ε2ε4 children performed worse on attention tasks. Larger parietal gyri in the younger ε2ε4 children, and thinner temporal and cingulate isthmus cortices or smaller hippocampi in the younger ε4ε4 children, predicted poorer performance on attention or working memory.ConclusionsOur findings validated and extended prior smaller studies that showed altered brain development in APOE ε4-carrier children. The ε4ε4 and ε2ε4 genotypes may negatively influence brain development and brain aging at the extremes of age. Studying APOE ε polymorphisms in young children may provide the earliest indicators for individuals who might benefit from early interventions or preventive measures for future brain injuries and dementia.

Published
2016

20. Anxiety is related to indices of cortical maturation in typically developing children and adolescents

Author

Newman, Erik, Thompson, Wesley K, Bartsch, Hauke, Hagler, Donald J, Chen, Chi-Hua, Brown, Timothy T, Kuperman, Joshua M, McCabe, Connor, Chung, Yoonho, Libiger, Ondrej, Akshoomoff, Natacha, Bloss, Cinnamon S, Casey, BJ, Chang, Linda, Ernst, Thomas M, Frazier, Jean A, Gruen, Jeffrey R, Kennedy, David N, Murray, Sarah S, Sowell, Elizabeth R, Schork, Nicholas, Kenet, Tal, Kaufmann, Walter E, Mostofsky, Stewart, Amaral, David G, Dale, Anders M, and Jernigan, Terry L

Subjects
Biomedical and Clinical Sciences, Medical Physiology, Neurosciences, Mental Health, Behavioral and Social Science, Brain Disorders, Pediatric, 1.1 Normal biological development and functioning, Aetiology, Underpinning research, 2.3 Psychological, social and economic factors, 2.1 Biological and endogenous factors, Mental health, Adolescent, Adult, Age Factors, Anxiety, Anxiety Disorders, Child, Diffusion Magnetic Resonance Imaging, Female, Humans, Male, Prefrontal Cortex, Psychiatric Status Rating Scales, Risk Factors, Self Report, Sex Factors, Young Adult, Brain development, Cortical surface area, Cortical thickness, Magnetic resonance imaging, Ventromedial prefrontal cortex, Cognitive Sciences, Developmental Biology, Neurology & Neurosurgery, Medical physiology
Abstract

Anxiety is a risk factor for many adverse neuropsychiatric and socioeconomic outcomes, and has been linked to functional and structural changes in the ventromedial prefrontal cortex (VMPFC). However, the nature of these differences, as well as how they develop in children and adolescents, remains poorly understood. More effective interventions to minimize the negative consequences of anxiety require better understanding of its neurobiology in children. Recent research suggests that structural imaging studies may benefit from clearly delineating between cortical surface area and thickness when examining these associations, as these distinct cortical phenotypes are influenced by different cellular mechanisms and genetic factors. The present study examined relationships between cortical surface area and thickness of the VMPFC and a self-report measure of anxiety (SCARED-R) in 287 youths aged 7-20 years from the Pediatric Imaging, Neurocognition, and Genetics (PING) study. Age and gender interactions were examined for significant associations in order to test for developmental differences. Cortical surface area and thickness were also examined simultaneously to determine whether they contribute independently to the prediction of anxiety. Anxiety was negatively associated with relative cortical surface area of the VMPFC as well as with global cortical thickness, but these associations diminished with age. The two cortical phenotypes contributed additively to the prediction of anxiety. These findings suggest that higher anxiety in children may be characterized by both delayed expansion of the VMPFC and an altered trajectory of global cortical thinning. Further longitudinal studies will be needed to confirm these findings.

Published
2016

21. Individual differences in frontolimbic circuitry and anxiety emerge with adolescent changes in endocannabinoid signaling across species

Author

Gee, Dylan G, Fetcho, Robert N, Jing, Deqiang, Li, Anfei, Glatt, Charles E, Drysdale, Andrew T, Cohen, Alexandra O, Dellarco, Danielle V, Yang, Rui R, Dale, Anders M, Jernigan, Terry L, Lee, Francis S, Casey, BJ, San Diego, UC, McCabe, Connor, Chang, Linda, Hawaii, U, Akshoomoff, Natacha, Newman, Erik, Core, MRI Acquisition, Ernst, Thomas, Van Zijl, Peter, Kuperman, Joshua, Murray, Sarah, Bloss, Cinnamon, Schork, Nicholas J, Appelbaum, Mark, Gamst, Anthony, Thompson, Wesley, Bartsch, Hauke, Keating, Brian, Amaral, David, Sowell, Elizabeth, Kaufmann, Walter, Mostofsky, Stewart, Ruberry, Erika J, Powers, Alisa, Rosen, Bruce, Kenet, Tal, Frazier, Jean, Kennedy, David, University, Yale, and Gruen, Jeffrey

Subjects
Neurosciences, Brain Disorders, Mental Health, Behavioral and Social Science, Genetics, Pediatric, 2.1 Biological and endogenous factors, Aetiology, Mental health, Adolescent, Adult, Animals, Child, Child, Preschool, Endocannabinoids, Female, Frontal Lobe, Humans, Limbic Lobe, Male, Mice, Mice, Transgenic, Nerve Net, Signal Transduction, Species Specificity, FAAH, frontolimbic, gene x development, anxiety, cross-species, PING Consortium, gene × development
Abstract

Anxiety disorders peak in incidence during adolescence, a developmental window that is marked by dynamic changes in gene expression, endocannabinoid signaling, and frontolimbic circuitry. We tested whether genetic alterations in endocannabinoid signaling related to a common polymorphism in fatty acid amide hydrolase (FAAH), which alters endocannabinoid anandamide (AEA) levels, would impact the development of frontolimbic circuitry implicated in anxiety disorders. In a pediatric imaging sample of over 1,000 3- to 21-y-olds, we show effects of the FAAH genotype specific to frontolimbic connectivity that emerge by ∼12 y of age and are paralleled by changes in anxiety-related behavior. Using a knock-in mouse model of the FAAH polymorphism that controls for genetic and environmental backgrounds, we confirm phenotypic differences in frontoamygdala circuitry and anxiety-related behavior by postnatal day 45 (P45), when AEA levels begin to decrease, and also, at P75 but not before. These results, which converge across species and level of analysis, highlight the importance of underlying developmental neurobiology in the emergence of genetic effects on brain circuitry and function. Moreover, the results have important implications for the identification of risk for disease and precise targeting of treatments to the biological state of the developing brain as a function of developmental changes in gene expression and neural circuit maturation.

Published
2016

22. When Is an Adolescent an Adult? Assessing Cognitive Control in Emotional and Nonemotional Contexts

Author

Cohen, Alexandra O, Breiner, Kaitlyn, Steinberg, Laurence, Bonnie, Richard J, Scott, Elizabeth S, Taylor-Thompson, Kim, Rudolph, Marc D, Chein, Jason, Richeson, Jennifer A, Heller, Aaron S, Silverman, Melanie R, Dellarco, Danielle V, Fair, Damien A, Galván, Adriana, and Casey, BJ

Subjects
Biological Psychology, Cognitive and Computational Psychology, Psychology, Applied and Developmental Psychology, Mind and Body, Behavioral and Social Science, Aging, Basic Behavioral and Social Science, Clinical Research, Neurosciences, Mental Health, Mental health, Adolescent, Adult, Arousal, Brain, Brain Mapping, Cognition, Emotions, Female, Humans, Image Processing, Computer-Assisted, Los Angeles, Magnetic Resonance Imaging, Male, Nerve Net, New York City, Reaction Time, Young Adult, adolescence, cognitive control, development, emotion, fMRI, legal policy, young adult, Cognitive Sciences, Experimental Psychology
Abstract

An individual is typically considered an adult at age 18, although the age of adulthood varies for different legal and social policies. A key question is how cognitive capacities relevant to these policies change with development. The current study used an emotional go/no-go paradigm and functional neuroimaging to assess cognitive control under sustained states of negative and positive arousal in a community sample of one hundred ten 13- to 25-year-olds from New York City and Los Angeles. The results showed diminished cognitive performance under brief and prolonged negative emotional arousal in 18- to 21-year-olds relative to adults over 21. This reduction in performance was paralleled by decreased activity in fronto-parietal circuitry, implicated in cognitive control, and increased sustained activity in the ventromedial prefrontal cortex, involved in emotional processes. The findings suggest a developmental shift in cognitive capacity in emotional situations that coincides with dynamic changes in prefrontal circuitry. These findings may inform age-related social policies.

Published
2016

23. Dyslexia and language impairment associated genetic markers influence cortical thickness and white matter in typically developing children.

Author

Eicher, John D, Montgomery, Angela M, Akshoomoff, Natacha, Amaral, David G, Bloss, Cinnamon S, Libiger, Ondrej, Schork, Nicholas J, Darst, Burcu F, Casey, BJ, Chang, Linda, Ernst, Thomas, Frazier, Jean, Kaufmann, Walter E, Keating, Brian, Kenet, Tal, Kennedy, David, Mostofsky, Stewart, Murray, Sarah S, Sowell, Elizabeth R, Bartsch, Hauke, Kuperman, Joshua M, Brown, Timothy T, Hagler, Donald J, Dale, Anders M, Jernigan, Terry L, Gruen, Jeffrey R, and Pediatric Imaging Neurocognition Genetics Study

Subjects
Pediatric Imaging Neurocognition Genetics Study, Brain, Humans, Dyslexia, Language Development Disorders, Genetic Predisposition to Disease, Thiolester Hydrolases, Proteins, Cell Adhesion Molecules, Nerve Tissue Proteins, Diffusion Magnetic Resonance Imaging, Organ Size, Cohort Studies, Cross-Sectional Studies, Polymorphism, Single Nucleotide, Adolescent, Child, Child, Preschool, Young Adult, Diffusion Tensor Imaging, Genotyping Techniques, White Matter, DYX2, DYX3, Imaging-genetics, KIAA0319, Language impairment, Brain Disorders, Neurosciences, Genetics, Behavioral and Social Science, Clinical Research, Prevention, Basic Behavioral and Social Science, Pediatric, 2.1 Biological and endogenous factors, Aetiology, Mental health, Medical and Health Sciences, Psychology and Cognitive Sciences, Experimental Psychology
Abstract

Dyslexia and language impairment (LI) are complex traits with substantial genetic components. We recently completed an association scan of the DYX2 locus, where we observed associations of markers in DCDC2, KIAA0319, ACOT13, and FAM65B with reading-, language-, and IQ-related traits. Additionally, the effects of reading-associated DYX3 markers were recently characterized using structural neuroimaging techniques. Here, we assessed the neuroimaging implications of associated DYX2 and DYX3 markers, using cortical volume, cortical thickness, and fractional anisotropy. To accomplish this, we examined eight DYX2 and three DYX3 markers in 332 subjects in the Pediatrics Imaging Neurocognition Genetics study. Imaging-genetic associations were examined by multiple linear regression, testing for influence of genotype on neuroimaging. Markers in DYX2 genes KIAA0319 and FAM65B were associated with cortical thickness in the left orbitofrontal region and global fractional anisotropy, respectively. KIAA0319 and ACOT13 were suggestively associated with overall fractional anisotropy and left pars opercularis cortical thickness, respectively. DYX3 markers showed suggestive associations with cortical thickness and volume measures in temporal regions. Notably, we did not replicate association of DYX3 markers with hippocampal measures. In summary, we performed a neuroimaging follow-up of reading-, language-, and IQ-associated DYX2 and DYX3 markers. DYX2 associations with cortical thickness may reflect variations in their role in neuronal migration. Furthermore, our findings complement gene expression and imaging studies implicating DYX3 markers in temporal regions. These studies offer insight into where and how DYX2 and DYX3 risk variants may influence neuroimaging traits. Future studies should further connect the pathways to risk variants associated with neuroimaging/neurocognitive outcomes.

Published
2016

24. Beyond simple models of adolescence to an integrated circuit-based account: A commentary

Author

Casey, BJ, Galván, Adriana, and Somerville, Leah H

Subjects
Biomedical and Clinical Sciences, Biological Psychology, Clinical and Health Psychology, Neurosciences, Psychology, Adolescent, Equipment Design, Humans, Linear Models, Models, Neurological, Clinical Sciences, Cognitive Sciences, Biological psychology, Clinical and health psychology
Published
2016

25. The Pediatric Imaging, Neurocognition, and Genetics (PING) Data Repository.

Author

Jernigan, Terry L, Brown, Timothy T, Hagler, Donald J, Akshoomoff, Natacha, Bartsch, Hauke, Newman, Erik, Thompson, Wesley K, Bloss, Cinnamon S, Murray, Sarah S, Schork, Nicholas, Kennedy, David N, Kuperman, Joshua M, McCabe, Connor, Chung, Yoonho, Libiger, Ondrej, Maddox, Melanie, Casey, BJ, Chang, Linda, Ernst, Thomas M, Frazier, Jean A, Gruen, Jeffrey R, Sowell, Elizabeth R, Kenet, Tal, Kaufmann, Walter E, Mostofsky, Stewart, Amaral, David G, Dale, Anders M, and Pediatric Imaging, Neurocognition and Genetics Study

Subjects
Pediatric Imaging, Neurocognition and Genetics Study, Humans, Cohort Studies, Cross-Sectional Studies, Information Dissemination, Cognition, Neuropsychological Tests, Genetics, Pediatrics, Patient Selection, Reference Values, Image Processing, Computer-Assisted, Databases, Factual, Adolescent, Child, Child, Preschool, Female, Male, Young Adult, Neuroimaging, Multimodal Imaging, Pediatric Imaging, Neurocognition and Genetics Study, Image Processing, Computer-Assisted, Databases, Factual, Preschool, Pediatric Research Initiative, Bioengineering, Drug Abuse, Pediatric, Behavioral and Social Science, Neurosciences, Substance Abuse, Neurology & Neurosurgery, Medical and Health Sciences, Psychology and Cognitive Sciences
Abstract

The main objective of the multi-site Pediatric Imaging, Neurocognition, and Genetics (PING) study was to create a large repository of standardized measurements of behavioral and imaging phenotypes accompanied by whole genome genotyping acquired from typically-developing children varying widely in age (3 to 20 years). This cross-sectional study produced sharable data from 1493 children, and these data have been described in several publications focusing on brain and cognitive development. Researchers may gain access to these data by applying for an account on the PING portal and filing a data use agreement. Here we describe the recruiting and screening of the children and give a brief overview of the assessments performed, the imaging methods applied, the genetic data produced, and the numbers of cases for whom different data types are available. We also cite sources of more detailed information about the methods and data. Finally we describe the procedures for accessing the data and for using the PING data exploration portal.

Published
2016

26. The Pediatric Imaging, Neurocognition, and Genetics (PING) Data Repository

Author

Jernigan, TL, Brown, TT, Hagler, DJ, Akshoomoff, N, Bartsch, H, Newman, E, Thompson, WK, Bloss, CS, Murray, SS, Schork, N, Kennedy, DN, Kuperman, JM, McCabe, C, Chung, Y, Libiger, O, Maddox, M, Casey, BJ, Chang, L, Ernst, TM, Frazier, JA, Gruen, JR, Sowell, ER, Kenet, T, Kaufmann, WE, Mostofsky, S, Amaral, DG, and Dale, AM

Subjects
Neurology & Neurosurgery, Medical and Health Sciences, Psychology and Cognitive Sciences
Abstract

The main objective of the multi-site Pediatric Imaging, Neurocognition, and Genetics (PING) study was to create a large repository of standardized measurements of behavioral and imaging phenotypes accompanied by whole genome genotyping acquired from typically-developing children varying widely in age (3 to 20 years). This cross-sectional study produced sharable data from 1493 children, and these data have been described in several publications focusing on brain and cognitive development. Researchers may gain access to these data by applying for an account on the PING portal and filing a data use agreement. Here we describe the recruiting and screening of the children and give a brief overview of the assessments performed, the imaging methods applied, the genetic data produced, and the numbers of cases for whom different data types are available. We also cite sources of more detailed information about the methods and data. Finally we describe the procedures for accessing the data and for using the PING data exploration portal.

Published
2016

27. Family income, parental education and brain structure in children and adolescents

Author

Noble, Kimberly G, Houston, Suzanne M, Brito, Natalie H, Bartsch, Hauke, Kan, Eric, Kuperman, Joshua M, Akshoomoff, Natacha, Amaral, David G, Bloss, Cinnamon S, Libiger, Ondrej, Schork, Nicholas J, Murray, Sarah S, Casey, BJ, Chang, Linda, Ernst, Thomas M, Frazier, Jean A, Gruen, Jeffrey R, Kennedy, David N, Van Zijl, Peter, Mostofsky, Stewart, Kaufmann, Walter E, Kenet, Tal, Dale, Anders M, Jernigan, Terry L, and Sowell, Elizabeth R

Subjects
Cognitive and Computational Psychology, Psychology, Neurosciences, Pediatric Research Initiative, Basic Behavioral and Social Science, Brain Disorders, Pediatric, Behavioral and Social Science, 2.1 Biological and endogenous factors, 2.3 Psychological, social and economic factors, Underpinning research, 1.2 Psychological and socioeconomic processes, Aetiology, Mental health, Adolescent, Age Factors, Anthropometry, Brain, Cerebral Cortex, Child, Child, Preschool, DNA, Educational Status, Genotype, Hippocampus, Humans, Income, Models, Neurological, Organ Size, Parents, Poverty, Psychological Tests, Psychology, Adolescent, Psychology, Child, Regression Analysis, Socioeconomic Factors, Young Adult, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology
Abstract

Socioeconomic disparities are associated with differences in cognitive development. The extent to which this translates to disparities in brain structure is unclear. We investigated relationships between socioeconomic factors and brain morphometry, independently of genetic ancestry, among a cohort of 1,099 typically developing individuals between 3 and 20 years of age. Income was logarithmically associated with brain surface area. Among children from lower income families, small differences in income were associated with relatively large differences in surface area, whereas, among children from higher income families, similar income increments were associated with smaller differences in surface area. These relationships were most prominent in regions supporting language, reading, executive functions and spatial skills; surface area mediated socioeconomic differences in certain neurocognitive abilities. These data imply that income relates most strongly to brain structure among the most disadvantaged children.

Published
2015

30. Schizophrenia-risk variant rs6994992 in the neuregulin-1 gene on brain developmental trajectories in typically developing children.

Author

Douet, V, Chang, L, Pritchett, A, Lee, K, Keating, B, Bartsch, H, Jernigan, TL, Dale, A, Akshoomoff, N, Murray, S, Bloss, C, Kennedy, DN, Amaral, D, Gruen, J, Kaufmann, WE, Casey, BJ, Sowell, E, and Ernst, T

Subjects
Brain, Humans, Neuregulin-1, Magnetic Resonance Imaging, Adolescent Development, Child Development, Schizophrenia, Heterozygote, Polymorphism, Single Nucleotide, Adolescent, Adult, Child, Child, Preschool, Female, Male, Young Adult, Diffusion Tensor Imaging, Memory, Episodic, Basic Behavioral and Social Science, Biomedical Imaging, Brain Disorders, Behavioral and Social Science, Neurosciences, Genetics, Pediatric, Clinical Research, Mental Health, 2.1 Biological and endogenous factors, 2.3 Psychological, social and economic factors, Mental health, Neurological, Clinical Sciences, Public Health and Health Services, Psychology
Abstract

The neuregulin-1 (NRG1) gene is one of the best-validated risk genes for schizophrenia, and psychotic and bipolar disorders. The rs6994992 variant in the NRG1 promoter (SNP8NRG243177) is associated with altered frontal and temporal brain macrostructures and/or altered white matter density and integrity in schizophrenic adults, as well as healthy adults and neonates. However, the ages when these changes begin and whether neuroimaging phenotypes are associated with cognitive performance are not fully understood. Therefore, we investigated the association of the rs6994992 variant on developmental trajectories of brain macro- and microstructures, and their relationship with cognitive performance. A total of 972 healthy children aged 3-20 years had the genotype available for the NRG1-rs6994992 variant, and were evaluated with magnetic resonance imaging (MRI) and neuropsychological tests. Age-by-NRG1-rs6994992 interactions and genotype effects were assessed using a general additive model regression methodology, covaried for scanner type, socioeconomic status, sex and genetic ancestry factors. Compared with the C-carriers, children with the TT-risk-alleles had subtle microscopic and macroscopic changes in brain development that emerge or reverse during adolescence, a period when many psychiatric disorders are manifested. TT-children at late adolescence showed a lower age-dependent forniceal volume and lower fractional anisotropy; however, both measures were associated with better episodic memory performance. To our knowledge, we provide the first multimodal imaging evidence that genetic variation in NRG1 is associated with age-related changes on brain development during typical childhood and adolescence, and delineated the altered patterns of development in multiple brain regions in children with the T-risk allele(s).

Published
2014

33. Teens Impulsively React rather than Retreat from Threat

Author

Dreyfuss, Michael, Caudle, Kristina, Drysdale, Andrew T, Johnston, Natalie E, Cohen, Alexandra O, Somerville, Leah H, Galván, Adriana, Tottenham, Nim, Hare, Todd A, and Casey, BJ

Subjects
Mental Health, Neurosciences, Behavioral and Social Science, Clinical Research, Pediatric, Basic Behavioral and Social Science, Adolescent, Adolescent Behavior, Adult, Child, Cues, Fear, Female, Humans, Impulsive Behavior, Magnetic Resonance Imaging, Male, Photic Stimulation, Reward, Risk-Taking, Sex Characteristics, Young Adult, Adolescence, Impulsivity, Limbic circuitry, Orbitofrontal cortex, Medial prefrontal cortex, Paediatrics and Reproductive Medicine, Cognitive Sciences, Neurology & Neurosurgery
Abstract

There is a significant inflection in risk taking and criminal behavior during adolescence, but the basis for this increase remains largely unknown. An increased sensitivity to rewards has been suggested to explain these behaviors, yet juvenile offences often occur in emotionally charged situations of negative valence. How behavior is altered by changes in negative emotional processes during adolescence has received less attention than changes in positive emotional processes. The current study uses a measure of impulsivity in combination with cues that signal threat or safety to assess developmental changes in emotional responses to threat cues. We show that adolescents, especially males, impulsively react to threat cues relative to neutral ones more than adults or children, even when instructed not to respond. This adolescent-specific behavioral pattern is paralleled by enhanced activity in limbic cortical regions implicated in the detection and assignment of emotional value to inputs and in the subsequent regulation of responses to them when successfully suppressing impulsive responses to threat cues. In contrast, prefrontal control regions implicated in detecting and resolving competing responses show an adolescent-emergent pattern (i.e. greater activity in adolescents and adults relative to children) during successful suppression of a response regardless of emotion. Our findings suggest that adolescence is a period of heightened sensitivity to social and emotional cues that results in diminished regulation of behavior in their presence.

Published
2014

34. The NIH Toolbox Cognition Battery: results from a large normative developmental sample (PING).

Author

Akshoomoff, Natacha, Newman, Erik, Thompson, Wesley K, McCabe, Connor, Bloss, Cinnamon S, Chang, Linda, Amaral, David G, Casey, BJ, Ernst, Thomas M, Frazier, Jean A, Gruen, Jeffrey R, Kaufmann, Walter E, Kenet, Tal, Kennedy, David N, Libiger, Ondrej, Mostofsky, Stewart, Murray, Sarah S, Sowell, Elizabeth R, Schork, Nicholas, Dale, Anders M, and Jernigan, Terry L

Subjects
Humans, Neuropsychological Tests, Age Factors, Socioeconomic Factors, Adolescent, Adult, Child, Child, Preschool, Female, Male, Young Adult, Neurosciences, Pediatric, Behavioral and Social Science, computerized assessment, cognitive development, socioeconomic status, Psychology, Cognitive Sciences, Experimental Psychology
Abstract

ObjectiveThe NIH Toolbox Cognition Battery (NTCB) was designed to provide a brief, efficient computerized test of key neuropsychological functions appropriate for use in children as young as 3 years of age. This report describes the performance of a large group of typically developing children and adolescents and examines the impact of age and sociocultural variables on test performance.MethodThe NTCB was administered to a sample of 1,020 typically developing males and females ranging in age from 3 to 20 years, diverse in terms of socioeconomic status (SES) and race/ethnicity, as part of the new publicly accessible Pediatric Imaging, Neurocognition, and Genetics (PING) data resource, at 9 sites across the United States.ResultsGeneral additive models of nonlinear age-functions were estimated from age-differences in test performance on the 8 NTCB subtests while controlling for family SES and genetic ancestry factors (GAFs). Age accounted for the majority of the variance across all NTCB scores, with additional significant contributions of gender on some measures, and of SES and race/ethnicity (GAFs) on all. After adjusting for age and gender, SES and GAFs explained a substantial proportion of the remaining unexplained variance in Picture Vocabulary scores.ConclusionsThe results highlight the sensitivity to developmental effects and efficiency of this new computerized assessment battery for neurodevelopmental research. Limitations are observed in the form of some ceiling effects in older children, some floor effects, particularly on executive function tests in the youngest participants, and evidence for variable measurement sensitivity to cultural/socioeconomic factors.

Published
2014

35. Genome-wide association study of shared components of reading disability and language impairment.

Author

Eicher, JD, Powers, NR, Miller, LL, Akshoomoff, N, Amaral, DG, Bloss, CS, Libiger, O, Schork, NJ, Darst, BF, Casey, BJ, Chang, L, Ernst, T, Frazier, J, Kaufmann, WE, Keating, B, Kenet, T, Kennedy, D, Mostofsky, S, Murray, SS, Sowell, ER, Bartsch, H, Kuperman, JM, Brown, TT, Hagler, DJ, Dale, AM, Jernigan, TL, St Pourcain, B, Davey Smith, G, Ring, SM, Gruen, JR, and Pediatric Imaging, Neurocognition, and Genetics Study

Subjects
Pediatric Imaging, Neurocognition, and Genetics Study, Cerebral Cortex, Humans, Dyslexia, Language Development Disorders, Sulfotransferases, Membrane Proteins, Collagen Type IV, Transcription Factors, Case-Control Studies, Longitudinal Studies, Zinc Fingers, Polymorphism, Single Nucleotide, Child, Female, Male, Genome-Wide Association Study, ALSPAC, PING, ZNF385D, dyslexia GWAS, language impairment, reading disability, Behavioral and Social Science, Clinical Research, Pediatric, Genetics, Neurosciences, 2.1 Biological and endogenous factors, Mental health, Neurology & Neurosurgery, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences
Abstract

Written and verbal languages are neurobehavioral traits vital to the development of communication skills. Unfortunately, disorders involving these traits-specifically reading disability (RD) and language impairment (LI)-are common and prevent affected individuals from developing adequate communication skills, leaving them at risk for adverse academic, socioeconomic and psychiatric outcomes. Both RD and LI are complex traits that frequently co-occur, leading us to hypothesize that these disorders share genetic etiologies. To test this, we performed a genome-wide association study on individuals affected with both RD and LI in the Avon Longitudinal Study of Parents and Children. The strongest associations were seen with markers in ZNF385D (OR = 1.81, P = 5.45 × 10(-7) ) and COL4A2 (OR = 1.71, P = 7.59 × 10(-7) ). Markers within NDST4 showed the strongest associations with LI individually (OR = 1.827, P = 1.40 × 10(-7) ). We replicated association of ZNF385D using receptive vocabulary measures in the Pediatric Imaging Neurocognitive Genetics study (P = 0.00245). We then used diffusion tensor imaging fiber tract volume data on 16 fiber tracts to examine the implications of replicated markers. ZNF385D was a predictor of overall fiber tract volumes in both hemispheres, as well as global brain volume. Here, we present evidence for ZNF385D as a candidate gene for RD and LI. The implication of transcription factor ZNF385D in RD and LI underscores the importance of transcriptional regulation in the development of higher order neurocognitive traits. Further study is necessary to discern target genes of ZNF385D and how it functions within neural development of fluent language.

Published
2013

36. Dimensionality of brain networks linked to life-long individual differences in self-control

Author

Berman, Marc G, Yourganov, Grigori, Askren, Mary K, Ayduk, Ozlem, Casey, BJ, Gotlib, Ian H, Kross, Ethan, McIntosh, Anthony R, Strother, Stephen, Wilson, Nicole L, Zayas, Vivian, Mischel, Walter, Shoda, Yuichi, and Jonides, John

Subjects
Basic Behavioral and Social Science, Pediatric Research Initiative, Pediatric, Neurosciences, Clinical Research, Behavioral and Social Science, Mental Health, Underpinning research, 1.2 Psychological and socioeconomic processes, 2.3 Psychological, social and economic factors, Aetiology, Mental health, Neurological, Adult, Brain, Brain Mapping, Child, Preschool, Discriminant Analysis, Female, Humans, Impulsive Behavior, Individuality, Inhibition, Psychological, Magnetic Resonance Imaging, Male, Memory, Short-Term, Nerve Net, Principal Component Analysis, Reaction Time, Task Performance and Analysis, Young Adult
Abstract

The ability to delay gratification in childhood has been linked to positive outcomes in adolescence and adulthood. Here we examine a subsample of participants from a seminal longitudinal study of self-control throughout a subject's life span. Self-control, first studied in children at age 4 years, is now re-examined 40 years later, on a task that required control over the contents of working memory. We examine whether patterns of brain activation on this task can reliably distinguish participants with consistently low and high self-control abilities (low versus high delayers). We find that low delayers recruit significantly higher-dimensional neural networks when performing the task compared with high delayers. High delayers are also more homogeneous as a group in their neural patterns compared with low delayers. From these brain patterns, we can predict with 71% accuracy, whether a participant is a high or low delayer. The present results suggest that dimensionality of neural networks is a biological predictor of self-control abilities.

Published
2013

37. Multimodal imaging of the self-regulating developing brain

Author

Fjell, Anders M, Walhovd, Kristine Beate, Brown, Timothy T, Kuperman, Joshua M, Chung, Yoonho, Hagler, Donald J, Venkatraman, Vijay, Roddey, J Cooper, Erhart, Matthew, McCabe, Connor, Akshoomoff, Natacha, Amaral, David G, Bloss, Cinnamon S, Libiger, Ondrej, Darst, Burcu F, Schork, Nicholas J, Casey, BJ, Chang, Linda, Ernst, Thomas M, Gruen, Jeffrey R, Kaufmann, Walter E, Kenet, Tal, Frazier, Jean, Murray, Sarah S, Sowell, Elizabeth R, van Zijl, Peter, Mostofsky, Stewart, Jernigan, Terry L, Dale, Anders M, Newman, Erik, Ernst, Thomas, Van Zijl, Peter, Kuperman, Joshua, Murray, Sarah, Bloss, Cinnamon, Appelbaum, Mark, Gamst, Anthony, Thompson, Wesley, Bartsch, Hauke, Keating, Brian, Amaral, David, Sowell, Elizabeth, Kaufmann, Walter, Ruberry, Erika J, Powers, Alisa, Rosen, Bruce, Kennedy, David, and Gruen, Jeffrey

Subjects
Biomedical Imaging, Basic Behavioral and Social Science, Mental Health, Brain Disorders, Neurosciences, Clinical Research, Behavioral and Social Science, Mental health, Neurological, Adolescent, Adult, Brain, Child, Child, Preschool, Humans, Magnetic Resonance Imaging, Young Adult, executive function, cognitive conflict, inhibition, morphometry, Pediatric Imaging, Neurocognition, and Genetics Study
Abstract

Self-regulation refers to the ability to control behavior, cognition, and emotions, and self-regulation failure is related to a range of neuropsychiatric problems. It is poorly understood how structural maturation of the brain brings about the gradual improvement in self-regulation during childhood. In a large-scale multicenter effort, 735 children (4-21 y) underwent structural MRI for quantification of cortical thickness and surface area and diffusion tensor imaging for quantification of the quality of major fiber connections. Brain development was related to a standardized measure of cognitive control (the flanker task from the National Institutes of Health Toolbox), a critical component of self-regulation. Ability to inhibit responses and impose cognitive control increased rapidly during preteen years. Surface area of the anterior cingulate cortex accounted for a significant proportion of the variance in cognitive performance. This finding is intriguing, because characteristics of the anterior cingulum are shown to be related to impulse, attention, and executive problems in neurodevelopmental disorders, indicating a neural foundation for self-regulation abilities along a continuum from normality to pathology. The relationship was strongest in the younger children. Properties of large-fiber connections added to the picture by explaining additional variance in cognitive control. Although cognitive control was related to surface area of the anterior cingulate independently of basic processes of mental speed, the relationship between white matter quality and cognitive control could be fully accounted for by speed. The results underscore the need for integration of different aspects of brain maturation to understand the foundations of cognitive development.

Published
2012

38. Neuroanatomical assessment of biological maturity.

Author

Brown, Timothy T, Kuperman, Joshua M, Chung, Yoonho, Erhart, Matthew, McCabe, Connor, Hagler, Donald J, Venkatraman, Vijay K, Akshoomoff, Natacha, Amaral, David G, Bloss, Cinnamon S, Casey, BJ, Chang, Linda, Ernst, Thomas M, Frazier, Jean A, Gruen, Jeffrey R, Kaufmann, Walter E, Kenet, Tal, Kennedy, David N, Murray, Sarah S, Sowell, Elizabeth R, Jernigan, Terry L, and Dale, Anders M

Subjects
Brain, Cerebral Cortex, Neural Pathways, Nerve Fibers, Myelinated, Humans, Magnetic Resonance Imaging, Brain Mapping, Aging, Adolescent, Child, Child, Preschool, Female, Male, Young Adult, Biomarkers, Developmental Biology, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences
Abstract

Structural MRI allows unparalleled in vivo study of the anatomy of the developing human brain. For more than two decades, MRI research has revealed many new aspects of this multifaceted maturation process, significantly augmenting scientific knowledge gathered from postmortem studies. Postnatal brain development is notably protracted and involves considerable changes in cerebral cortical, subcortical, and cerebellar structures, as well as significant architectural changes in white matter fiber tracts (see [12]). Although much work has described isolated features of neuroanatomical development, it remains a critical challenge to characterize the multidimensional nature of brain anatomy, capturing different phases of development among individuals. Capitalizing on key advances in multisite, multimodal MRI, and using cross-validated nonlinear modeling, we demonstrate that developmental brain phase can be assessed with much greater precision than has been possible using other biological measures, accounting for more than 92% of the variance in age. Further, our composite metric of morphology, diffusivity, and signal intensity shows that the average difference in phase among children of the same age is only about 1 year, revealing for the first time a latent phenotype in the human brain for which maturation timing is tightly controlled.

Published
2012

39. Resting-state connectivity biomarkers define neurophysiological subtypes of depression

Author

Drysdale, Andrew T, Grosenick, Logan, Downar, Jonathan, Dunlop, Katharine, Mansouri, Farrokh, Meng, Yue, Fetcho, Robert N, Zebley, Benjamin, Oathes, Desmond J, Etkin, Amit, Schatzberg, Alan F, Sudheimer, Keith, Keller, Jennifer, Mayberg, Helen S, Gunning, Faith M, Alexopoulos, George S, Fox, Michael D, Pascual-Leone, Alvaro, Voss, Henning U, Casey, BJ, Dubin, Marc J, and Liston, Conor

Subjects
Depression (Mood disorder) -- Development and progression -- Care and treatment, Neural stimulation -- Methods -- Patient outcomes, Biological markers -- Health aspects, Biological sciences, Health
Abstract

Biomarkers have transformed modern medicine but remain largely elusive in psychiatry, partly because there is a weak correspondence between diagnostic labels and their neurobiological substrates. Like other neuropsychiatric disorders, depression is not a unitary disease, but rather a heterogeneous syndrome that encompasses varied, co-occurring symptoms and divergent responses to treatment. By using functional magnetic resonance imaging (fMRI) in a large multisite sample (n = 1,188), we show here that patients with depression can be subdivided into four neurophysiological subtypes ('biotypes') defined by distinct patterns of dysfunctional connectivity in limbic and frontostriatal networks. Clustering patients on this basis enabled the development of diagnostic classifiers (biomarkers) with high (82-93%) sensitivity and specificity for depression subtypes in multisite validation (n = 711) and out-of-sample replication (n = 477) data sets. These biotypes cannot be differentiated solely on the basis of clinical features, but they are associated with differing clinical-symptom profiles. They also predict responsiveness to transcranial magnetic stimulation therapy (n = 154). Our results define novel subtypes of depression that transcend current diagnostic boundaries and may be useful for identifying the individuals who are most likely to benefit from targeted neurostimulation therapies., Author(s): Andrew T Drysdale [1, 2, 3]; Logan Grosenick [4, 5]; Jonathan Downar [6]; Katharine Dunlop [6]; Farrokh Mansouri [6]; Yue Meng [1]; Robert N Fetcho [1]; Benjamin Zebley [7]; [...]

Published
2017
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42. Associations among Household and Neighborhood Socioeconomic Disadvantages, Resting-state Frontoamygdala Connectivity, and Internalizing Symptoms in Youth

Author

Ip, Ka I., primary, Sisk, Lucinda M., additional, Horien, Corey, additional, Conley, May I., additional, Rapuano, Kristina M., additional, Rosenberg, Monica D., additional, Greene, Abigail S., additional, Scheinost, Dustin, additional, Constable, R. Todd, additional, Casey, BJ, additional, Baskin-Sommers, Arielle, additional, and Gee, Dylan G., additional

Published
2022
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