Your search keyword '"Gowland, Penny"' showing total 14 results

1. Differential associations of adolescent versus young adult cannabis initiation with longitudinal brain change and behavior

Author

Albaugh, Matthew D., Owens, Max M., Juliano, Anthony, Ottino-Gonzalez, Jonatan, Cupertino, Renata, Cao, Zhipeng, Mackey, Scott, Lepage, Claude, Rioux, Pierre, Evans, Alan, Banaschewski, Tobias, Bokde, Arun L. W., Conrod, Patricia, Desrivières, Sylvane, Flor, Herta, Grigis, Antoine, Gowland, Penny, Heinz, Andreas, Ittermann, Bernd, Martinot, Jean-Luc, Martinot, Marie-Laure Paillère, Artiges, Eric, Nees, Frauke, Orfanos, Dimitri Papadopoulos, Paus, Tomáš, Poustka, Luise, Millenet, Sabina, Fröhner, Juliane H., Smolka, Michael N., Walter, Henrik, Whelan, Robert, Schumann, Gunter, Potter, Alexandra, and Garavan, Hugh

Published

2023

2. Covariation of preadult environmental exposures, adult brain imaging phenotypes, and adult personality traits

Author

Xue, Kaizhong, Gao, Bo, Chen, Feng, Wang, Meiyun, Cheng, Jingliang, Zhang, Bing, Zhu, Wenzhen, Qiu, Shijun, Geng, Zuojun, Zhang, Xiaochu, Cui, Guangbin, Yu, Yongqiang, Zhang, Quan, Liao, Weihua, Zhang, Hui, Xu, Xiaojun, Han, Tong, Qin, Wen, Liu, Feng, Liang, Meng, Guo, Lining, Xu, Qiang, Xu, Jiayuan, Fu, Jilian, Zhang, Peng, Li, Wei, Shi, Dapeng, Wang, Caihong, Lui, Su, Yan, Zhihan, Zhang, Jing, Li, Jiance, Wang, Dawei, Xian, Junfang, Xu, Kai, Zuo, Xi-Nian, Zhang, Longjiang, Ye, Zhaoxiang, Banaschewski, Tobias, Barker, Gareth J., Bokde, Arun L. W., Desrivières, Sylvane, Flor, Herta, Grigis, Antoine, Garavan, Hugh, Gowland, Penny, Heinz, Andreas, Brühl, Rüdiger, Martinot, Jean-Luc, Martinot, Marie-Laure Paillère, Artiges, Eric, Nees, Frauke, Orfanos, Dimitri Papadopoulos, Lemaitre, Herve, Poustka, Luise, Hohmann, Sarah, Holz, Nathalie, Fröhner, Juliane H., Smolka, Michael N., Vaidya, Nilakshi, Walter, Henrik, Whelan, Robert, Shen, Wen, Miao, Yanwei, and Yu, Chunshui

Published

2023

3. Epigenome-wide meta-analysis of blood DNA methylation and its association with subcortical volumes: findings from the ENIGMA Epigenetics Working Group

Author

Jia, Tianye, Chu, Congying, Liu, Yun, van Dongen, Jenny, Papastergios, Evangelos, Armstrong, Nicola J, Bastin, Mark E, Carrillo-Roa, Tania, den Braber, Anouk, Harris, Mathew, Jansen, Rick, Liu, Jingyu, Luciano, Michelle, Ori, Anil PS, Roiz Santiañez, Roberto, Ruggeri, Barbara, Sarkisyan, Daniil, Shin, Jean, Sungeun, Kim, Tordesillas Gutiérrez, Diana, van’t Ent, Dennis, Ames, David, Artiges, Eric, Bakalkin, Georgy, Banaschewski, Tobias, Bokde, Arun LW, Brodaty, Henry, Bromberg, Uli, Brouwer, Rachel, Büchel, Christian, Burke Quinlan, Erin, Cahn, Wiepke, de Zubicaray, Greig I, Ehrlich, Stefan, Ekström, Tomas J, Flor, Herta, Fröhner, Juliane H, Frouin, Vincent, Garavan, Hugh, Gowland, Penny, Heinz, Andreas, Hoare, Jacqueline, Ittermann, Bernd, Jahanshad, Neda, Jiang, Jiyang, Kwok, John B, Martin, Nicholas G, Martinot, Jean-Luc, Mather, Karen A, McMahon, Katie L, McRae, Allan F, Nees, Frauke, Papadopoulos Orfanos, Dimitri, Paus, Tomáš, Poustka, Luise, Sämann, Philipp G, Schofield, Peter R, Smolka, Michael N, Stein, Dan J, Strike, Lachlan T, Teeuw, Jalmar, Thalamuthu, Anbupalam, Trollor, Julian, Walter, Henrik, Wardlaw, Joanna M, Wen, Wei, Whelan, Robert, Apostolova, Liana G, Binder, Elisabeth B, Boomsma, Dorret I, Calhoun, Vince, Crespo-Facorro, Benedicto, Deary, Ian J, Hulshoff Pol, Hilleke, Ophoff, Roel A, Pausova, Zdenka, Sachdev, Perminder S, Saykin, Andrew, Wright, Margaret J, Thompson, Paul M, Schumann, Gunter, and Desrivières, Sylvane

Subjects

Biological Psychology, Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Psychology, Mental Health, Neurosciences, Genetics, Human Genome, Diabetes, Neurodegenerative, 2.1 Biological and endogenous factors, Aetiology, Neurological, Mental health, CpG Islands, DNA Methylation, Epigenesis, Genetic, Epigenome, Genome-Wide Association Study, Humans, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Clinical sciences, Biological psychology, Clinical and health psychology

Abstract

DNA methylation, which is modulated by both genetic factors and environmental exposures, may offer a unique opportunity to discover novel biomarkers of disease-related brain phenotypes, even when measured in other tissues than brain, such as blood. A few studies of small sample sizes have revealed associations between blood DNA methylation and neuropsychopathology, however, large-scale epigenome-wide association studies (EWAS) are needed to investigate the utility of DNA methylation profiling as a peripheral marker for the brain. Here, in an analysis of eleven international cohorts, totalling 3337 individuals, we report epigenome-wide meta-analyses of blood DNA methylation with volumes of the hippocampus, thalamus and nucleus accumbens (NAcc)-three subcortical regions selected for their associations with disease and heritability and volumetric variability. Analyses of individual CpGs revealed genome-wide significant associations with hippocampal volume at two loci. No significant associations were found for analyses of thalamus and nucleus accumbens volumes. Cluster-based analyses revealed additional differentially methylated regions (DMRs) associated with hippocampal volume. DNA methylation at these loci affected expression of proximal genes involved in learning and memory, stem cell maintenance and differentiation, fatty acid metabolism and type-2 diabetes. These DNA methylation marks, their interaction with genetic variants and their impact on gene expression offer new insights into the relationship between epigenetic variation and brain structure and may provide the basis for biomarker discovery in neurodegeneration and neuropsychiatric conditions.

Published

2021

4. Cortical profiles of numerous psychiatric disorders and normal development share a common pattern

Author

Cao, Zhipeng, Cupertino, Renata B., Ottino-Gonzalez, Jonatan, Murphy, Alistair, Pancholi, Devarshi, Juliano, Anthony, Chaarani, Bader, Albaugh, Matthew, Yuan, Dekang, Schwab, Nathan, Stafford, James, Goudriaan, Anna E., Hutchison, Kent, Li, Chiang-Shan R., Luijten, Maartje, Groefsema, Martine, Momenan, Reza, Schmaal, Lianne, Sinha, Rajita, van Holst, Ruth J., Veltman, Dick J., Wiers, Reinout W., Porjesz, Bernice, Lett, Tristram, Banaschewski, Tobias, Bokde, Arun L. W., Desrivières, Sylvane, Flor, Herta, Grigis, Antoine, Gowland, Penny, Heinz, Andreas, Brühl, Rüdiger, Martinot, Jean-Luc, Martinot, Marie-Laure Paillère, Artiges, Eric, Nees, Frauke, Orfanos, Dimitri Papadopoulos, Paus, Tomáš, Poustka, Luise, Hohmann, Sarah, Millenet, Sabina, Fröhner, Juliane H., Robinson, Lauren, Smolka, Michael N., Walter, Henrik, Winterer, Jeanne, Schumann, Gunter, Whelan, Robert, Bhatt, Ravi R., Zhu, Alyssa, Conrod, Patricia, Jahanshad, Neda, Thompson, Paul M., Mackey, Scott, and Garavan, Hugh

Published

2023

5. Anxiety onset in adolescents: a machine-learning prediction

Author

Chavanne, Alice V., Paillère Martinot, Marie Laure, Penttilä, Jani, Grimmer, Yvonne, Conrod, Patricia, Stringaris, Argyris, van Noort, Betteke, Isensee, Corinna, Becker, Andreas, Banaschewski, Tobias, Bokde, Arun L. W., Desrivières, Sylvane, Flor, Herta, Grigis, Antoine, Garavan, Hugh, Gowland, Penny, Heinz, Andreas, Brühl, Rüdiger, Nees, Frauke, Papadopoulos Orfanos, Dimitri, Paus, Tomáš, Poustka, Luise, Hohmann, Sarah, Millenet, Sabina, Fröhner, Juliane H., Smolka, Michael N., Walter, Henrik, Whelan, Robert, Schumann, Gunter, Martinot, Jean-Luc, and Artiges, Eric

Published

2023

6. A causal association of ANKRD37 with human hippocampal volume

Author

Xu, Jiayuan, Xia, Xianyou, Li, Qiaojun, Dou, Yan, Suo, Xinjun, Sun, Zuhao, Liu, Nana, Han, Yating, Sun, Xiaodi, He, Yukun, Qin, Wen, Zhang, Shijie, Banaschewski, Tobias, Flor, Herta, Grigis, Antoine, Gowland, Penny, Heinz, Andreas, Brühl, Rüdiger, Martinot, Jean-Luc, Artiges, Eric, Nees, Frauke, Paus, Tomáš, Poustka, Luise, Hohmann, Sarah, Walter, Henrik, Sham, Pak Chung, Schumann, Gunter, Wu, Xudong, Li, Mulin Jun, and Yu, Chunshui

Published

2022

7. Distinct brain structure and behavior related to ADHD and conduct disorder traits

Author

Bayard, Frida, Nymberg Thunell, Charlotte, Abé, Christoph, Almeida, Rita, Banaschewski, Tobias, Barker, Gareth, Bokde, Arun L. W., Bromberg, Uli, Büchel, Christian, Quinlan, Erin Burke, Desrivières, Sylvane, Flor, Herta, Frouin, Vincent, Garavan, Hugh, Gowland, Penny, Heinz, Andreas, Ittermann, Bernd, Martinot, Jean-Luc, Martinot, Marie-Laure Paillère, Nees, Frauke, Orfanos, Dimitri Papadopoulos, Paus, Tomáš, Poustka, Luise, Conrod, Patricia, Stringaris, Argyris, Struve, Maren, Penttilä, Jani, Kappel, Viola, Grimmer, Yvonne, Fadai, Tahmine, van Noort, Betteke, Smolka, Michael N., Vetter, Nora C., Walter, Henrik, Whelan, Robert, Schumann, Gunter, and Petrovic, Predrag

Published

2020

8. Coupled changes between ruminating thoughts and resting-state brain networks during the transition into adulthood

Author

Marchitelli, Rocco, Paillère Martinot, Marie-Laure, Trouvé, Alain, Banaschewski, Tobias, Bokde, Arun L. W., Desrivières, Sylvane, Flor, Herta, Garavan, Hugh, Gowland, Penny, Heinz, Andreas, Brühl, Rüdiger, Nees, Frauke, Papadopoulos Orfanos, Dimitri, Paus, Tomáš, Poustka, Luise, Hohmann, Sarah, Holz, Nathalie, Vaidya, Nilakshi, Fröhner, Juliane H., Smolka, Michael N., Walter, Henrik, Whelan, Robert, Schumann, Gunter, Martinot, Jean-Luc, and Artiges, Eric

Abstract

Perseverative negative thoughts, known as rumination, might arise from emotional challenges and preclude mental health when transitioning into adulthood. Due to its multifaceted nature, rumination can take several ruminative response styles, that diverge in manifestations, severity, and mental health outcomes. Still, prospective ruminative phenotypes remain elusive insofar. Longitudinal study designs are ideal for stratifying ruminative response styles, especially with resting-state functional MRI whose setup naturally elicits people’s ruminative traits. Here, we considered self-rated questionnaires on rumination and psychopathology, along with resting-state functional MRI data in 595 individuals assessed at age 18 and 22 from the IMAGEN cohort. We conducted independent component analysis to characterize eight single static resting-state functional networks in each subject and session and furthermore conducted a dynamic analysis, tackling the time variations of functional networks during the entire scanning time. We then investigated their longitudinal mediation role between changes in three ruminative response styles (reflective pondering, brooding, and depressive rumination) and changes in internalizing and co-morbid externalizing symptoms. Four static and two dynamic networks longitudinally differentiated these ruminative styles and showed complemental sensitivity to internalizing and co-morbid externalizing symptoms. Among these networks, the right frontoparietal network covaried with all ruminative styles but did not play any mediation role towards psychopathology. The default mode, the salience, and the limbic networks prospectively stratified these ruminative styles, suggesting that maladaptive ruminative styles are associated with altered corticolimbic function. For static measures, only the salience network played a longitudinal causal role between brooding rumination and internalizing symptoms. Dynamic measures highlighted the default-mode mediation role between the other ruminative styles and co-morbid externalizing symptoms. In conclusion, we identified the ruminative styles’ psychometric and neural outcome specificities, supporting their translation into applied research on young adult mental healthcare.

Published

2024

9. Epigenome-wide meta-analysis of blood DNA methylation and its association with subcortical volumes: findings from the ENIGMA Epigenetics Working Group

Author

Jia, Tianye, primary, Chu, Congying, additional, Liu, Yun, additional, van Dongen, Jenny, additional, Papastergios, Evangelos, additional, Armstrong, Nicola J., additional, Bastin, Mark E., additional, Carrillo-Roa, Tania, additional, den Braber, Anouk, additional, Harris, Mathew, additional, Jansen, Rick, additional, Liu, Jingyu, additional, Luciano, Michelle, additional, Ori, Anil P. S., additional, Roiz Santiañez, Roberto, additional, Ruggeri, Barbara, additional, Sarkisyan, Daniil, additional, Shin, Jean, additional, Sungeun, Kim, additional, Tordesillas Gutiérrez, Diana, additional, van’t Ent, Dennis, additional, Ames, David, additional, Artiges, Eric, additional, Bakalkin, Georgy, additional, Banaschewski, Tobias, additional, Bokde, Arun L. W., additional, Brodaty, Henry, additional, Bromberg, Uli, additional, Brouwer, Rachel, additional, Büchel, Christian, additional, Burke Quinlan, Erin, additional, Cahn, Wiepke, additional, de Zubicaray, Greig I., additional, Ehrlich, Stefan, additional, Ekström, Tomas J., additional, Flor, Herta, additional, Fröhner, Juliane H., additional, Frouin, Vincent, additional, Garavan, Hugh, additional, Gowland, Penny, additional, Heinz, Andreas, additional, Hoare, Jacqueline, additional, Ittermann, Bernd, additional, Jahanshad, Neda, additional, Jiang, Jiyang, additional, Kwok, John B., additional, Martin, Nicholas G., additional, Martinot, Jean-Luc, additional, Mather, Karen A., additional, McMahon, Katie L., additional, McRae, Allan F., additional, Nees, Frauke, additional, Papadopoulos Orfanos, Dimitri, additional, Paus, Tomáš, additional, Poustka, Luise, additional, Sämann, Philipp G., additional, Schofield, Peter R., additional, Smolka, Michael N., additional, Stein, Dan J., additional, Strike, Lachlan T., additional, Teeuw, Jalmar, additional, Thalamuthu, Anbupalam, additional, Trollor, Julian, additional, Walter, Henrik, additional, Wardlaw, Joanna M., additional, Wen, Wei, additional, Whelan, Robert, additional, Apostolova, Liana G., additional, Binder, Elisabeth B., additional, Boomsma, Dorret I., additional, Calhoun, Vince, additional, Crespo-Facorro, Benedicto, additional, Deary, Ian J., additional, Hulshoff Pol, Hilleke, additional, Ophoff, Roel A., additional, Pausova, Zdenka, additional, Sachdev, Perminder S., additional, Saykin, Andrew, additional, Wright, Margaret J., additional, Thompson, Paul M., additional, Schumann, Gunter, additional, and Desrivières, Sylvane, additional

Published

2019

10. Cortical profiles of numerous psychiatric disorders and normal development share a common pattern

Author

Cao, Zhipeng, Cupertino, Renata B., Ottino-Gonzalez, Jonatan, Murphy, Alistair, Pancholi, Devarshi, Juliano, Anthony, Chaarani, Bader, Albaugh, Matthew, Yuan, Dekang, Schwab, Nathan, Stafford, James, Goudriaan, Anna E., Hutchison, Kent, Li, Chiang-Shan R., Luijten, Maartje, Groefsema, Martine, Momenan, Reza, Schmaal, Lianne, Sinha, Rajita, van Holst, Ruth J., Veltman, Dick J., Wiers, Reinout W., Porjesz, Bernice, Lett, Tristram, Banaschewski, Tobias, Bokde, Arun L. W., Desrivières, Sylvane, Flor, Herta, Grigis, Antoine, Gowland, Penny, Heinz, Andreas, Brühl, Rüdiger, Martinot, Jean-Luc, Martinot, Marie-Laure Paillère, Artiges, Eric, Nees, Frauke, Orfanos, Dimitri Papadopoulos, Paus, Tomáš, Poustka, Luise, Hohmann, Sarah, Millenet, Sabina, Fröhner, Juliane H., Robinson, Lauren, Smolka, Michael N., Walter, Henrik, Winterer, Jeanne, Schumann, Gunter, Whelan, Robert, Bhatt, Ravi R., Zhu, Alyssa, Conrod, Patricia, Jahanshad, Neda, Thompson, Paul M., Mackey, Scott, and Garavan, Hugh

Abstract

The neurobiological bases of the association between development and psychopathology remain poorly understood. Here, we identify a shared spatial pattern of cortical thickness (CT) in normative development and several psychiatric and neurological disorders. Principal component analysis (PCA) was applied to CT of 68 regions in the Desikan-Killiany atlas derived from three large-scale datasets comprising a total of 41,075 neurotypical participants. PCA produced a spatially broad first principal component (PC1) that was reproducible across datasets. Then PC1 derived from healthy adult participants was compared to the pattern of CT differences associated with psychiatric and neurological disorders comprising a total of 14,886 cases and 20,962 controls from seven ENIGMA disease-related working groups, normative maturation and aging comprising a total of 17,697 scans from the ABCD Study® and the IMAGEN developmental study, and 17,075 participants from the ENIGMA Lifespan working group, as well as gene expression maps from the Allen Human Brain Atlas. Results revealed substantial spatial correspondences between PC1 and widespread lower CT observed in numerous psychiatric disorders. Moreover, the PC1 pattern was also correlated with the spatial pattern of normative maturation and aging. The transcriptional analysis identified a set of genes including KCNA2, KCNS1and KCNS2with expression patterns closely related to the spatial pattern of PC1. The gene category enrichment analysis indicated that the transcriptional correlations of PC1 were enriched to multiple gene ontology categories and were specifically over-represented starting at late childhood, coinciding with the onset of significant cortical maturation and emergence of psychopathology during the prepubertal-to-pubertal transition. Collectively, the present study reports a reproducible latent pattern of CT that captures interregional profiles of cortical changes in both normative brain maturation and a spectrum of psychiatric disorders. The pubertal timing of the expression of PC1-related genes implicates disrupted neurodevelopment in the pathogenesis of the spectrum of psychiatric diseases emerging during adolescence.

Published

2022

11. A causal association of ANKRD37with human hippocampal volume

Author

Xu, Jiayuan, Xia, Xianyou, Li, Qiaojun, Dou, Yan, Suo, Xinjun, Sun, Zuhao, Liu, Nana, Han, Yating, Sun, Xiaodi, He, Yukun, Qin, Wen, Zhang, Shijie, Banaschewski, Tobias, Flor, Herta, Grigis, Antoine, Gowland, Penny, Heinz, Andreas, Brühl, Rüdiger, Martinot, Jean-Luc, Artiges, Eric, Nees, Frauke, Paus, Tomáš, Poustka, Luise, Hohmann, Sarah, Walter, Henrik, Sham, Pak Chung, Schumann, Gunter, Wu, Xudong, Li, Mulin Jun, and Yu, Chunshui

Abstract

Human hippocampal volume has been separately associated with single nucleotide polymorphisms (SNPs), DNA methylation and gene expression, but their causal relationships remain largely unknown. Here, we aimed at identifying the causal relationships of SNPs, DNA methylation, and gene expression that are associated with hippocampal volume by integrating cross-omics analyses with genome editing, overexpression and causality inference. Based on structural neuroimaging data and blood-derived genome, transcriptome and methylome data, we prioritized a possibly causal association across multiple molecular phenotypes: rs1053218 mutation leads to cg26741686 hypermethylation, thus leads to overactivation of the associated ANKRD37gene expression in blood, a gene involving hypoxia, which may result in the reduction of human hippocampal volume. The possibly causal relationships from rs1053218 to cg26741686 methylation to ANKRD37expression obtained from peripheral blood were replicated in human hippocampal tissue. To confirm causality, we performed CRISPR-based genome and epigenome-editing of rs1053218 homologous alleles and cg26741686 methylation in mouse neural stem cell differentiation models, and overexpressed ANKRD37in mouse hippocampus. These in-vitro and in-vivo experiments confirmed that rs1053218 mutation caused cg26741686 hypermethylation and ANKRD37overexpression, and cg26741686 hypermethylation favored ANKRD37overexpression, and ANKRD37overexpression reduced hippocampal volume. The pairwise relationships of rs1053218 with hippocampal volume, rs1053218 with cg26741686 methylation, cg26741686 methylation with ANKRD37expression, and ANKRD37expression with hippocampal volume could be replicated in an independent healthy young (n= 443) dataset and observed in elderly people (n= 194), and were more significant in patients with late-onset Alzheimer’s disease (n= 76). This study revealed a novel causal molecular association mechanism of ANKRD37with human hippocampal volume, which may facilitate the design of prevention and treatment strategies for hippocampal impairment.

Published

2022

12. Linked patterns of biological and environmental covariation with brain structure in adolescence: a population-based longitudinal study

Author

Modabbernia, Amirhossein, Reichenberg, Abraham, Ing, Alex, Moser, Dominik A., Doucet, Gaelle E., Artiges, Eric, Banaschewski, Tobias, Barker, Gareth J., Becker, Andreas, Bokde, Arun L. W., Quinlan, Erin Burke, Desrivières, Sylvane, Flor, Herta, Fröhner, Juliane H., Garavan, Hugh, Gowland, Penny, Grigis, Antoine, Grimmer, Yvonne, Heinz, Andreas, Insensee, Corinna, Ittermann, Bernd, Martinot, Jean-Luc, Martinot, Marie-Laure Paillère, Millenet, Sabina, Nees, Frauke, Orfanos, Dimitri Papadopoulos, Paus, Tomáš, Penttilä, Jani, Poustka, Luise, Smolka, Michael N., Stringaris, Argyris, van Noort, Betteke M., Walter, Henrik, Whelan, Robert, Schumann, Gunter, and Frangou, Sophia

Abstract

Adolescence is a period of major brain reorganization shaped by biologically timed and by environmental factors. We sought to discover linked patterns of covariation between brain structural development and a wide array of these factors by leveraging data from the IMAGEN study, a longitudinal population-based cohort of adolescents. Brain structural measures and a comprehensive array of non-imaging features (relating to demographic, anthropometric, and psychosocial characteristics) were available on 1476 IMAGEN participants aged 14 years and from a subsample reassessed at age 19 years (n= 714). We applied sparse canonical correlation analyses (sCCA) to the cross-sectional and longitudinal data to extract modes with maximum covariation between neuroimaging and non-imaging measures. Separate sCCAs for cortical thickness, cortical surface area and subcortical volumes confirmed that each imaging phenotype was correlated with non-imaging features (sCCA rrange: 0.30–0.65, all PFDR< 0.001). Total intracranial volume and global measures of cortical thickness and surface area had the highest canonical cross-loadings (|ρ| = 0.31−0.61). Age, physical growth and sex had the highest association with adolescent brain structure (|ρ| = 0.24−0.62); at baseline, further significant positive associations were noted for cognitive measures while negative associations were observed at both time points for prenatal parental smoking, life events, and negative affect and substance use in youth (|ρ| = 0.10−0.23). Sex, physical growth and age are the dominant influences on adolescent brain development. We highlight the persistent negative influences of prenatal parental smoking and youth substance use as they are modifiable and of relevance for public health initiatives.

Published

2021

13. Do ADHD-impulsivity and BMI have shared polygenic and neural correlates?

Author

Barker, Edward D, Ing, Alex, Biondo, Francesca, Jia, Tianye, Pingault, Jean-Baptiste, Du Rietz, Ebba, Zhang, Yuning, Ruggeri, Barbara, Banaschewski, Tobias, Hohmann, Sarah, Bokde, Arun L. W, Bromberg, Uli, Büchel, Christian, Quinlan, Erin Burke, Sounga-Barke, Edmund, Bowling, April B., Desrivières, Sylvane, Flor, Herta, Frouin, Vincent, Garavan, Hugh, Asherson, Philip, Gowland, Penny, Heinz, Andreas, Ittermann, Bernd, Martinot, Jean-Luc, Martinot, Marie-Laure Paillère, Nees, Frauke, Papadopoulos-Orfanos, Dimitri, Poustka, Luise, Smolka, Michael N, Vetter, Nora C., Walter, Henrik, Whelan, Robert, and Schumann, Gunter

Abstract

There is an extensive body of literature linking ADHD to overweight and obesity. Research indicates that impulsivity features of ADHD account for a degree of this overlap. The neural and polygenic correlates of this association have not been thoroughly examined. In participants of the IMAGEN study, we found that impulsivity symptoms and body mass index (BMI) were associated (r= 0.10, n= 874, p= 0.014 FWE corrected), as were their respective polygenic risk scores (PRS) (r= 0.17, n= 874, p= 6.5 × 10−6FWE corrected). We then examined whether the phenotypes of impulsivity and BMI, and the PRS scores of ADHD and BMI, shared common associations with whole-brain grey matter and the Monetary Incentive Delay fMRI task, which associates with reward-related impulsivity. A sparse partial least squared analysis (sPLS) revealed a shared neural substrate that associated with both the phenotypes and PRS scores. In a last step, we conducted a bias corrected bootstrapped mediation analysis with the neural substrate score from the sPLS as the mediator. The ADHD PRS associated with impulsivity symptoms (b=0.006, 90% CIs = 0.001, 0.019) and BMI (b=0.009, 90% CIs = 0.001, 0.025) via the neuroimaging substrate. The BMI PRS associated with BMI (b=0.014, 95% CIs = 0.003, 0.033) and impulsivity symptoms (b=0.009, 90% CIs = 0.001, 0.025) via the neuroimaging substrate. A common neural substrate may (in part) underpin shared genetic liability for ADHD and BMI and the manifestation of their (observable) phenotypic association.

Published

2021

14. Peer victimization and its impact on adolescent brain development and psychopathology

Author

Quinlan, Erin Burke, Barker, Edward D., Luo, Qiang, Banaschewski, Tobias, Bokde, Arun L. W., Bromberg, Uli, Büchel, Christian, Desrivières, Sylvane, Flor, Herta, Frouin, Vincent, Garavan, Hugh, Chaarani, Bader, Gowland, Penny, Heinz, Andreas, Brühl, Rüdiger, Martinot, Jean-Luc, Martinot, Marie-Laure Paillère, Nees, Frauke, Orfanos, Dimitri Papadopoulos, Paus, Tomáš, Poustka, Luise, Hohmann, Sarah, Smolka, Michael N., Fröhner, Juliane H., Walter, Henrik, Whelan, Robert, and Schumann, Gunter

Abstract

Chronic peer victimization has long-term impacts on mental health; however, the biological mediators of this adverse relationship are unknown. We sought to determine whether adolescent brain development is involved in mediating the effect of peer victimization on psychopathology. We included participants (n?=?682) from the longitudinal IMAGEN study with both peer victimization and neuroimaging data. Latent profile analysis identified groups of adolescents with different experiential patterns of victimization. We then associated the victimization trajectories and brain volume changes with depression, generalized anxiety, and hyperactivity symptoms at age 19. Repeated measures ANOVA revealed time-by-victimization interactions on left putamen volume (F?=?4.38, p?=?0.037). Changes in left putamen volume were negatively associated with generalized anxiety (t?=?-2.32, p?=?0.020). Notably, peer victimization was indirectly associated with generalized anxiety via decreases in putamen volume (95% CI?=?0.004–0.109). This was also true for the left caudate (95% CI?=?0.002–0.099). These data suggest that the experience of chronic peer victimization during adolescence might induce psychopathology-relevant deviations from normative brain development. Early peer victimization interventions could prevent such pathological changes.

Published

2020