Neurobiological Correlates of Change in Adaptive Behavior in Autism.
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T. Bourgeron | C. Freitag | S. Baron-Cohen | C. Beckmann | J. Buitelaar | E. Loth | D. Murphy | T. Banaschewski | G. Dumas | C. Ecker | S. Durston | T. Charman | S. Ambrosino | M. Lombardo | E. Jones | C. Mann | Tim Schäfer | A. Bletsch | V. Warrier | B. Oakley | D. Floris | J. Tillmann | C. Leblond | F. Cliquet | C. Pretzsch | Afsheen Yousaf | Chris H Chatham | Anke Bletsch
[1] Christopher H. Chatham,et al. Investigating the factors underlying adaptive functioning in autism in the EU‐AIMS Longitudinal European Autism Project , 2019, Autism research : official journal of the International Society for Autism Research.
[2] Annie W Shieh,et al. Transcriptome-wide isoform-level dysregulation in ASD, schizophrenia, and bipolar disorder , 2018, Science.
[3] Nathan E. Lewis,et al. The ASD Living Biology: from cell proliferation to clinical phenotype , 2018, Molecular Psychiatry.
[4] Christopher H. Chatham,et al. Adaptive behavior in autism: Minimal clinically important differences on the Vineland‐II , 2018, Autism research : official journal of the International Society for Autism Research.
[5] W. McMahon,et al. Mid‐life social outcomes for a population‐based sample of adults with ASD , 2018, Autism research : official journal of the International Society for Autism Research.
[6] R. Mark Henkelman,et al. Spatial gene expression analysis of neuroanatomical differences in mouse models , 2017, NeuroImage.
[7] Edward T. Bullmore,et al. Synaptic and transcriptionally downregulated genes are associated with cortical thickness differences in autism , 2017, bioRxiv.
[8] Minyoung Jung,et al. Decreased structural connectivity and resting-state brain activity in the lateral occipital cortex is associated with social communication deficits in boys with autism spectrum disorder , 2017, NeuroImage.
[9] Vincent Frouin,et al. The EU-AIMS Longitudinal European Autism Project (LEAP): design and methodologies to identify and validate stratification biomarkers for autism spectrum disorders , 2017, Molecular Autism.
[10] Vincent Frouin,et al. The EU-AIMS Longitudinal European Autism Project (LEAP): clinical characterisation , 2017, Molecular Autism.
[11] E. Cook,et al. Arbaclofen in Children and Adolescents with Autism Spectrum Disorder: A Randomized, Controlled, Phase 2 Trial , 2017, Neuropsychopharmacology.
[12] Luis de la Torre Ubieta,et al. Genome-wide changes in lncRNA, splicing, and regional gene expression patterns in autism , 2016, Nature.
[13] E. Courchesne,et al. Maternal immune activation dysregulation of the fetal brain transcriptome and relevance to the pathophysiology of autism spectrum disorder , 2017, Molecular Psychiatry.
[14] Jon Pipitone,et al. A Diffusion Tensor Imaging Study in Children With ADHD, Autism Spectrum Disorder, OCD, and Matched Controls: Distinct and Non-Distinct White Matter Disruption and Dimensional Brain-Behavior Relationships. , 2016, The American journal of psychiatry.
[15] R. Rothermel,et al. Efficacy of Low-Dose Buspirone for Restricted and Repetitive Behavior in Young Children with Autism Spectrum Disorder: A Randomized Trial. , 2016, The Journal of pediatrics.
[16] Charles J. Lynch,et al. Insula response and connectivity during social and non-social attention in children with autism. , 2016, Social cognitive and affective neuroscience.
[17] Alex Martin,et al. Resting-state functional connectivity predicts longitudinal change in autistic traits and adaptive functioning in autism , 2015, Proceedings of the National Academy of Sciences.
[18] Connie Kasari,et al. Measuring social communication behaviors as a treatment endpoint in individuals with autism spectrum disorder , 2015, Autism : the international journal of research and practice.
[19] M. Rietschel,et al. Correlated gene expression supports synchronous activity in brain networks , 2015, Science.
[20] Brittany G Travers,et al. Motor Learning in Individuals With Autism Spectrum Disorder: Activation in Superior Parietal Lobule Related to Learning and Repetitive Behaviors , 2015, Autism research : official journal of the International Society for Autism Research.
[21] Emily L. Casanova,et al. Genetics studies indicate that neural induction and early neuronal maturation are disturbed in autism , 2014, Front. Cell. Neurosci..
[22] James P. Morris,et al. Neocerebellar contributions to social perception in adolescents with autism spectrum disorder , 2014, Developmental Cognitive Neuroscience.
[23] C. Ecker,et al. The effect of age, diagnosis, and their interaction on vertex-based measures of cortical thickness and surface area in autism spectrum disorder , 2014, Journal of Neural Transmission.
[24] Torsten Rohlfing,et al. Variation in longitudinal trajectories of regional brain volumes of healthy men and women (ages 10 to 85years) measured with atlas-based parcellation of MRI , 2013, NeuroImage.
[25] Allan R. Jones,et al. An anatomically comprehensive atlas of the adult human brain transcriptome , 2012, Nature.
[26] Jim Euchner,et al. Spectrum Disorder , 2012 .
[27] Andrew J. Gerber,et al. The Role of Adaptive Behavior in Autism Spectrum Disorders: Implications for Functional Outcome , 2011, Journal of autism and developmental disorders.
[28] V. Menon,et al. Saliency, switching, attention and control: a network model of insula function , 2010, Brain Structure and Function.
[29] Hauke R. Heekeren,et al. Neural correlates of social cognition in naturalistic settings: A model-free analysis approach , 2010, NeuroImage.
[30] J. Lewine,et al. Neural correlates of communication skill and symptom severity in autism: A voxel-based morphometry study , 2009 .
[31] G. Baird,et al. Regression, Developmental Trajectory and Associated Problems in Disorders in the Autism Spectrum: The SNAP Study , 2008, Journal of autism and developmental disorders.
[32] R. Hevner,et al. Pax6 controls cerebral cortical cell number by regulating exit from the cell cycle and specifies cortical cell identity by a cell autonomous mechanism , 2007, Developmental biology.
[33] M. Reite,et al. Regional gray matter volumetric changes in autism associated with social and repetitive behavior symptoms , 2006, BMC psychiatry.
[34] N. Hadjikhani,et al. Anatomical differences in the mirror neuron system and social cognition network in autism. , 2006, Cerebral cortex.
[35] M. Sigman,et al. Continuity and change from early childhood to adolescence in autism. , 2005, Journal of child psychology and psychiatry, and allied disciplines.
[36] J. Rubenstein,et al. Id4 regulates neural progenitor proliferation and differentiation in vivo , 2004, Development.
[37] Thomas F. Nugent,et al. Dynamic mapping of human cortical development during childhood through early adulthood. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[38] A. Monaghan,et al. Expression of the transcription factor, tailless, is required for formation of superficial cortical layers. , 2003, Cerebral cortex.
[39] B. Leventhal,et al. The Autism Diagnostic Observation Schedule—Generic: A Standard Measure of Social and Communication Deficits Associated with the Spectrum of Autism , 2000, Journal of autism and developmental disorders.
[40] J. Rabe-Jabłońska,et al. [Affective disorders in the fourth edition of the classification of mental disorders prepared by the American Psychiatric Association -- diagnostic and statistical manual of mental disorders]. , 1993, Psychiatria polska.
[41] P. Rakic. Specification of cerebral cortical areas. , 1988, Science.
[42] C. Gillberg,et al. Outcome and prognostic factors in infantile autism and similar conditions: A population-based study of 46 cases followed through puberty , 1987, Journal of autism and developmental disorders.
[43] M. Rutter,et al. Cognitive and language skills in adults with autism: a 40-year follow-up. , 2014, Journal of child psychology and psychiatry, and allied disciplines.
[44] Cheng Li,et al. Adjusting batch effects in microarray expression data using empirical Bayes methods. , 2007, Biostatistics.
[45] Alan C. Evans,et al. Detecting changes in nonisotropic images , 1999, Human brain mapping.