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Marcus Kaiser, C. Hilgetag (2006)
Nonoptimal Component Placement, but Short Processing Paths, due to Long-Distance Projections in Neural SystemsPLoS Computational Biology, 2
B. Fischl, A. Kouwe, C. Destrieux, E. Halgren, F. Ségonne, D. Salat, Evelina Busa, L. Seidman, Jill Goldstein, D. Kennedy, V. Caviness, N. Makris, B. Rosen, A. Dale (2004)
Automatically parcellating the human cerebral cortex.Cerebral cortex, 14 1
F. Samson, L. Mottron, I. Soulières, T. Zeffiro (2012)
Enhanced visual functioning in autism: An ALE meta‐analysisHuman Brain Mapping, 33
S. Dakin, U. Frith (2005)
Vagaries of Visual Perception in AutismNeuron, 48
J. Grégoire (2000)
Comparison of three short forms of the Wechsler Intelligence scale for children: Third edition (WISC-III)European Review of Applied Psychology-revue Europeenne De Psychologie Appliquee, 50
M.D. Fox, M. Greicius (2010)
Clinical applications of resting state functional connectivity, 4
M.A. Just, V.L. Cherkassky, T.A. Keller, R.K. Kana, N.J. Minshew (2007)
Functional and anatomical cortical underconnectivity in autism: evidence from an FMRI study of an executive function task and corpus callosum morphometry, 17
M. Nebel, A. Eloyan, A. Barber, S. Mostofsky (2014)
Precentral gyrus functional connectivity signatures of autismFrontiers in Systems Neuroscience, 8
B. Fischl (2012)
FreeSurfer, 62
F. Ségonne, A. Dale, Evelina Busa, M. Glessner, D. Salat, H. Hahn, B. Fischl (2004)
A hybrid approach to the skull stripping problem in MRINeuroImage, 22
T. Nickl-Jockschat, U. Habel, T. Michel, J. Manning, A. Laird, P. Fox, F. Schneider, S. Eickhoff (2012)
Brain structure anomalies in autism spectrum disorder—a meta‐analysis of VBM studies using anatomic likelihood estimationHuman Brain Mapping, 33
J. Rudie, Z. Shehzad, L. Hernandez, Natalie Colich, S. Bookheimer, M. Iacoboni, M. Dapretto (2012)
Reduced functional integration and segregation of distributed neural systems underlying social and emotional information processing in autism spectrum disorders.Cerebral cortex, 22 5
S. Fong, Velma Lee, N. Chan, R.S.H. Chan, W. Chak, M. Pang (2011)
Motor ability and weight status are determinants of out-of-school activity participation for children with developmental coordination disorder.Research in developmental disabilities, 32 6
D. Dewey, M. Cantell, S. Crawford (2007)
Motor and gestural performance in children with autism spectrum disorders, developmental coordination disorder, and/or attention deficit hyperactivity disorderJournal of the International Neuropsychological Society, 13
J. Zwicker, C. Missiuna, S. Harris, L. Boyd (2012)
Developmental coordination disorder: a pilot diffusion tensor imaging study.Pediatric neurology, 46 3
C. Goch, B. Stieltjes, R. Henze, Jan Hering, L. Poustka, H. Meinzer, Klaus Maier-Hein (2014)
Quantification of changes in language-related brain areas in autism spectrum disorders using large-scale network analysisInternational Journal of Computer Assisted Radiology and Surgery, 9
S. Hosseini, Fumiko Hoeft, Fumiko Hoeft, S. Kesler (2012)
GAT: A Graph-Theoretical Analysis Toolbox for Analyzing Between-Group Differences in Large-Scale Structural and Functional Brain NetworksPLoS ONE, 7
S. Weng, J. Wiggins, S. Peltier, Melisa Carrasco, S. Risi, C. Lord, Christopher Monk (2010)
Alterations of resting state functional connectivity in the default network in adolescents with autism spectrum disordersBrain Research, 1313
S. Kopp, E. Beckung, C. Gillberg (2010)
Developmental coordination disorder and other motor control problems in girls with autism spectrum disorder and/or attention-deficit/hyperactivity disorder.Research in developmental disabilities, 31 2
Masataka Watanabe, M. Sakagami (2007)
Integration of cognitive and motivational context information in the primate prefrontal cortex.Cerebral cortex, 17 Suppl 1
Liang Wang, Chaozhe Zhu, Yong He, Y. Zang, Q. Cao, Han Zhang, Qiuhai Zhong, Yufeng Wang (2009)
Altered small‐world brain functional networks in children with attention‐deficit/hyperactivity disorderHuman Brain Mapping, 30
Yongxia Zhou, Fang Yu, T. Duong (2014)
Multiparametric MRI Characterization and Prediction in Autism Spectrum Disorder Using Graph Theory and Machine LearningPLoS ONE, 9
C. Hyde, P. Wilson (2011)
Dissecting online control in Developmental Coordination Disorder: A kinematic analysis of double-step reachingBrain and Cognition, 75
S. Hosseini, J. Black, J. Black, Teresa Soriano, N. Bugescu, N. Bugescu, Rociel Martinez, Rociel Martinez, M. Raman, S. Kesler, F. Hoeft, F. Hoeft (2013)
Topological properties of large-scale structural brain networks in children with familial risk for reading difficultiesNeuroImage, 71
M. Miyahara (2013)
Meta review of systematic and meta analytic reviews on movement differences, effect of movement based interventions, and the underlying neural mechanisms in autism spectrum disorderFrontiers in Integrative Neuroscience, 7
R. Desikan, F. Ségonne, B. Fischl, B. Quinn, B. Dickerson, D. Blacker, R. Buckner, A. Dale, R. Maguire, B. Hyman, M. Albert, R. Killiany (2006)
An automated labeling system for subdividing the human cerebral cortex on MRI scans into gyral based regions of interestNeuroImage, 31
Elizabeth Sharer, D. Crocetti, J. Muschelli, A. Barber, M. Nebel, B. Caffo, J. Pekar, S. Mostofsky (2015)
Neural Correlates of Visuomotor Learning in AutismJournal of Child Neurology, 30
S. Valk, A. Martino, M. Milham, B. Bernhardt (2015)
Multicenter mapping of structural network alterations in autismHuman Brain Mapping, 36
D. Watts, S. Strogatz (1998)
Collective dynamics of ‘small-world’ networksNature, 393
M. Licari, Jac Billington, S. Reid, J. Wann, C. Elliott, Anne Winsor, Erin Robins, Ashleigh Thornton, Randall Jones, M. Bynevelt (2015)
Cortical functioning in children with developmental coordination disorder: a motor overflow studyExperimental Brain Research, 233
J. Wegiel, I. Kuchna, K. Nowicki, H. Imaki, J. Wegiel, E. Marchi, Shuang Ma, A. Chauhan, V. Chauhan, T. Bobrowicz, M. Leon, M. Leon, L. Louis, I. Cohen, E. London, W. Brown, T. Wisniewski (2010)
The neuropathology of autism: defects of neurogenesis and neuronal migration, and dysplastic changesActa Neuropathologica, 119
J. Piek, M. Dyck (2004)
Sensory-motor deficits in children with developmental coordination disorder, attention deficit hyperactivity disorder and autistic disorder.Human movement science, 23 3-4
K. Schulz, S. Clerkin, J. Halperin, J. Newcorn, Cheuk Tang, Jin Fan (2009)
Dissociable neural effects of stimulus valence and preceding context during the inhibition of responses to emotional facesHuman Brain Mapping, 30
Kevin McLeod, L. Langevin, B. Goodyear, D. Dewey (2014)
Functional connectivity of neural motor networks is disrupted in children with developmental coordination disorder and attention-deficit/hyperactivity disorderNeuroImage : Clinical, 4
D. Shukla, B. Keehn, A. Lincoln, R. Müller (2010)
White matter compromise of callosal and subcortical fiber tracts in children with autism spectrum disorder: a diffusion tensor imaging study.Journal of the American Academy of Child and Adolescent Psychiatry, 49 12
J. Zwicker, S. Harris, A. Klassen (2013)
Quality of life domains affected in children with developmental coordination disorder: a systematic review.Child: care, health and development, 39 4
I. Wright, T. Sharma, Z. Ellison, P. McGuire, Karl Friston, M. Brammer, R. Murray, E. Bullmore (1999)
Supra-regional brain systems and the neuropathology of schizophrenia.Cerebral cortex, 9 4
Hadi Sm, Hosseini, Della Koovakkattu, S. Kesler (2012)
Altered small-world properties of gray matter networks in breast cancerBMC Neurology, 12
Aarti Nair, Ruth Carper, Angela Abbott, Colleen Chen, Seraphina Solders, Sarah Nakutin, M. Datko, I. Fishman, R. Müller (2015)
Regional specificity of aberrant thalamocortical connectivity in autismHuman Brain Mapping, 36
V. Latora, Massimo Marchiori (2001)
Efficient behavior of small-world networks.Physical review letters, 87 19
Ryuzo Hanaie, I. Mohri, K. Kagitani-Shimono, M. Tachibana, J. Azuma, Junko Matsuzaki, Yoshiyuki Watanabe, N. Fujita, M. Taniike (2013)
Altered Microstructural Connectivity of the Superior Cerebellar Peduncle is Related to Motor Dysfunction in Children with Autistic Spectrum DisordersThe Cerebellum, 12
J. Onnela, J. Saramäki, J. Kertész, K. Kaski (2004)
Intensity and coherence of motifs in weighted complex networks.Physical review. E, Statistical, nonlinear, and soft matter physics, 71 6 Pt 2
B. Bernhardt, Z. Chen, Yong He, Alan Evans, N. Bernasconi (2011)
Graph-theoretical analysis reveals disrupted small-world organization of cortical thickness correlation networks in temporal lobe epilepsy.Cerebral cortex, 21 9
E. Dennis, P. Thompson (2014)
Reprint of: Mapping connectivity in the developing brainInternational Journal of Developmental Neuroscience, 32
Aarti Nair, J. Treiber, D. Shukla, P. Shih, R. Müller (2013)
Impaired thalamocortical connectivity in autism spectrum disorder: a study of functional and anatomical connectivity.Brain : a journal of neurology, 136 Pt 6
E. Bullmore, O. Sporns (2009)
Complex brain networks: graph theoretical analysis of structural and functional systemsNature Reviews Neuroscience, 10
Yong Fan, F. Shi, J. Smith, Weili Lin, J. Gilmore, D. Shen (2011)
Brain anatomical networks in early human brain developmentNeuroImage, 54
(2013)
Diagnostic and statistical manual of mental disorders
Ruth Carper, Seraphina Solders, J. Treiber, I. Fishman, R. Müller (2015)
Corticospinal tract anatomy and functional connectivity of primary motor cortex in autism.Journal of the American Academy of Child and Adolescent Psychiatry, 54 10
H. Roeyers, M. Thys, C. Druart, M. De Schryver, M. Schittekatte (2011)
SRS: Screeningslijst voor autismespectrum stoornissen
J. Sergeant, J. Piek, J. Oosterlaan (2006)
ADHD and DCD: a relationship in need of research.Human movement science, 25 1
J. Zwicker, C. Missiuna, S. Harris, L. Boyd (2012)
Developmental coordination disorder: a review and update.European journal of paediatric neurology : EJPN : official journal of the European Paediatric Neurology Society, 16 6
E. Bullmore, O. Sporns (2012)
The economy of brain network organizationNature Reviews Neuroscience, 13
F. Castellanos, A. Martino, R. Craddock, A. Mehta, M. Milham (2013)
Clinical applications of the functional connectomeNeuroImage, 80
D. Green, T. Charman, A. Pickles, S. Chandler, T. Loucas, E. Simonoff, G. Baird (2009)
Impairment in movement skills of children with autistic spectrum disordersDevelopmental Medicine & Child Neurology, 51
Amy Clements-Stephens, S. Rimrodt, L. Cutting (2009)
Developmental sex differences in basic visuospatial processing: Differences in strategy use?Neuroscience Letters, 449
S.E. Henderson, D.A. Sugden, A.L. Barnett (2007)
Movement Assessment Battery for Children‐2 (Movement ABC‐2): Examiner's manual
C. Pan, Chia-Liang Tsai, C. Chu (2009)
Fundamental Movement Skills in Children Diagnosed with Autism Spectrum Disorders and Attention Deficit Hyperactivity DisorderJournal of Autism and Developmental Disorders, 39
B. Fischl, M. Sereno, A. Dale (1999)
Cortical Surface-Based Analysis II: Inflation, Flattening, and a Surface-Based Coordinate SystemNeuroImage, 9
J. Maximo, C. Keown, Aarti Nair, R. Müller (2013)
Approaches to local connectivity in autism using resting state functional connectivity MRIFrontiers in Human Neuroscience, 7
J. Zwicker, C. Missiuna, S. Harris, L. Boyd (2011)
Brain activation associated with motor skill practice in children with developmental coordination disorder: an fMRI studyInternational Journal of Developmental Neuroscience, 29
J. Zwicker, C. Missiuna, S. Harris, L. Boyd (2010)
Brain Activation of Children With Developmental Coordination Disorder is Different Than PeersPediatrics, 126
G. Zubicaray, K. Mcmahon, Mathew Eastburn, A. Pringle (2006)
Top‐down influences on lexical selection during spoken word production: A 4T fMRI investigation of refractory effects in picture namingHuman Brain Mapping, 27
B. Fischl, Arthur Liu, A. Dale (2001)
Automated manifold surgery: constructing geometrically accurate and topologically correct models of the human cerebral cortexIEEE Transactions on Medical Imaging, 20
K.E. Beery, N.A. Beery (2004)
The Beery‐Buktenica developmental test of visual‐motor integration: Beery VMI, with supplemental developmental tests of visual perception and motor coordination, and stepping stones age norms from birth to age six
P. Vértes, E. Bullmore (2014)
Annual Research Review: Growth connectomics – the organization and reorganization of brain networks during normal and abnormal developmentJournal of Child Psychology and Psychiatry, and Allied Disciplines, 56
R. Blank, B. Smits-Engelsman, H. Polatajko, P. Wilson (2012)
European Academy for Childhood Disability (EACD): Recommendations on the definition, diagnosis and intervention of developmental coordination disorder (long version) *Developmental Medicine & Child Neurology, 54
Julie Debrabant, F. Gheysen, K. Caeyenberghs, H. Waelvelde, G. Vingerhoets (2013)
Neural underpinnings of impaired predictive motor timing in children with Developmental Coordination Disorder.Research in developmental disabilities, 34 5
S. Hosseini, S. Kesler (2013)
Comparing connectivity pattern and small-world organization between structural correlation and resting-state networks in healthy adultsNeuroImage, 78
M. Rubinov, O. Sporns (2010)
Complex network measures of brain connectivity: Uses and interpretationsNeuroImage, 52
V. Cherkassky, R. Kana, T. Keller, M. Just (2006)
Functional connectivity in a baseline resting-state network in autismNeuroReport, 17
B. Bernhardt, S. Valk, G. Silani, G. Bird, U. Frith, T. Singer (2014)
Selective disruption of sociocognitive structural brain networks in autism and alexithymia.Cerebral cortex, 24 12
W. Goscinski, Paul McIntosh, U. Felzmann, A. Maksimenko, C. Hall, T. Gureyev, D. Thompson, A. Janke, G. Galloway, N. Killeen, P. Raniga, Owen Kaluza, A. Ng, G. Poudel, D. Barnes, Toàn Nguyên, Paul Bonnington, G. Egan (2014)
The multi-modal Australian ScienceS Imaging and Visualization Environment (MASSIVE) high performance computing infrastructure: applications in neuroscience and neuroinformatics researchFrontiers in Neuroinformatics, 8
C. Lord, S. Risi, Linda Lambrecht, E. Cook, B. Leventhal, Pamela DiLavore, A. Pickles, M. Rutter (2000)
The Autism Diagnostic Observation Schedule—Generic: A Standard Measure of Social and Communication Deficits Associated with the Spectrum of AutismJournal of Autism and Developmental Disorders, 30
A. Dale, M. Sereno (1993)
Improved Localizadon of Cortical Activity by Combining EEG and MEG with MRI Cortical Surface Reconstruction: A Linear ApproachJournal of Cognitive Neuroscience, 5
Lieke Peters, C. Maathuis, M. Hadders‐Algra (2013)
Neural correlates of developmental coordination disorderDevelopmental Medicine & Child Neurology, 55
J. Maximo, Elyse Cadena, R. Kana (2014)
The Implications of Brain Connectivity in the Neuropsychology of AutismNeuropsychology Review, 24
Julie Debrabant, G. Vingerhoets, H. Waelvelde, A. Leemans, T. Taymans, K. Caeyenberghs (2016)
Brain Connectomics of Visual-Motor Deficits in Children with Developmental Coordination Disorder.The Journal of pediatrics, 169
Jun-Ran Zhang, Jinhui Wang, Qizhu Wu, W. Kuang, Xiaoqi Huang, Yong He, Q. Gong (2011)
Disrupted Brain Connectivity Networks in Drug-Naive, First-Episode Major Depressive DisorderBiological Psychiatry, 70
B. Fischl, D. Salat, Evelina Busa, M. Albert, M. Dieterich, C. Haselgrove, A. Kouwe, R. Killiany, D. Kennedy, Shuna Klaveness, A. Montillo, N. Makris, B. Rosen, A. Dale (2002)
Whole Brain Segmentation Automated Labeling of Neuroanatomical Structures in the Human BrainNeuron, 33
B. Fischl, A. Dale (2000)
Measuring the thickness of the human cerebral cortex from magnetic resonance images.Proceedings of the National Academy of Sciences of the United States of America, 97 20
Peter Wilson, S. Ruddock, B. Smits-Engelsman, H. Polatajko, R. Blank (2013)
Understanding performance deficits in developmental coordination disorder: a meta‐analysis of recent researchDevelopmental Medicine & Child Neurology, 55
Rebecca Elliott, R. Dolan, C. Frith (2000)
Dissociable functions in the medial and lateral orbitofrontal cortex: evidence from human neuroimaging studies.Cerebral cortex, 10 3
E. Rubenstein, L. Wiggins, L. Lee (2015)
A Review of the Differences in Developmental, Psychiatric, and Medical Endophenotypes Between Males and Females with Autism Spectrum DisorderJournal of Developmental and Physical Disabilities, 27
D. Bassett, E. Bullmore, B. Verchinski, V. Mattay, D. Weinberger, A. Meyer-Lindenberg (2008)
Hierarchical Organization of Human Cortical Networks in Health and SchizophreniaThe Journal of Neuroscience, 28
G. Collin, M.P. Heuvel (2013)
The ontogeny of the human connectome: development and dynamic changes of brain connectivity across the life span, 19
Jeff Rudie, Jesse Brown, Devora Beck-Pancer, L. Hernandez, E. Dennis, Paul Thompson, Paul Thompson, S. Bookheimer, S. Bookheimer, M. Dapretto, M. Dapretto (2012)
Altered functional and structural brain network organization in autism☆NeuroImage : Clinical, 2
J. Peters, M. Taquet, Clemente Vega, S. Jeste, I. Fernández, Jacqueline Tan, C. Nelson, M. Sahin, S. Warfield (2013)
Brain functional networks in syndromic and non-syndromic autism: a graph theoretical study of EEG connectivityBMC Medicine, 11
M. Just, T. Keller, Rajesh Kana, N. Minshew, V. Cherkassky
From the Selectedworks of Marcel Adam Just Functional and Anatomical Cortical Underconnectivity in Autism: Evidence from an Fmri Study of an Executive Function Task and Corpus Callosum Morphometry
J. Gregoire (2000)
Comparison of three short forms of the Wechsler Intelligence Scale for Children: (WISC‐III), 50
L. Uddin, Kaustubh Supekar, S. Ryali, V. Menon (2011)
Dynamic Reconfiguration of Structural and Functional Connectivity Across Core Neurocognitive Brain Networks with DevelopmentThe Journal of Neuroscience, 31
G. Collin, M. Heuvel (2013)
The Ontogeny of the Human ConnectomeThe Neuroscientist, 19
F. Ségonne, J. Pacheco, B. Fischl (2007)
Geometrically Accurate Topology-Correction of Cortical Surfaces Using Nonseparating LoopsIEEE Transactions on Medical Imaging, 26
L. Langevin, F. Macmaster, S. Crawford, C. Lebel, D. Dewey (2014)
Common white matter microstructure alterations in pediatric motor and attention disorders.The Journal of pediatrics, 164 5
A. Dale, B. Fischl, M. Sereno (1999)
Cortical Surface-Based Analysis I. Segmentation and Surface ReconstructionNeuroImage, 9
Tore Opsahl, P. Panzarasa (2009)
Clustering in weighted networksSoc. Networks, 31
J. Sled, A. Zijdenbos, Alan Evans (1998)
A nonparametric method for automatic correction of intensity nonuniformity in MRI dataIEEE Transactions on Medical Imaging, 17
M. Humphries, K. Gurney (2008)
Network ‘Small-World-Ness’: A Quantitative Method for Determining Canonical Network EquivalencePLoS ONE, 3
Yong He, Z. Chen, Alan Evans (2007)
Small-world anatomical networks in the human brain revealed by cortical thickness from MRI.Cerebral cortex, 17 10
L. Sivaswamy, Ajay Kumar, Deepa Rajan, M. Behen, O. Muzik, D. Chugani, H. Chugani (2010)
A Diffusion Tensor Imaging Study of the Cerebellar Pathways in Children With Autism Spectrum DisorderJournal of Child Neurology, 25
T. Itahashi, Takashi Yamada, Hiromi Watanabe, Motoaki Nakamura, Daiki Jimbo, S. Shioda, Kazuo Toriizuka, N. Kato, R. Hashimoto (2014)
Altered Network Topologies and Hub Organization in Adults with Autism: A Resting-State fMRI StudyPLoS ONE, 9
A. Martino, X. Zuo, C. Kelly, R. Grzadzinski, M. Mennes, Ariel Schvarcz, J. Rodman, C. Lord, F. Castellanos, M. Milham (2013)
Shared and Distinct Intrinsic Functional Network Centrality in Autism and Attention-Deficit/Hyperactivity DisorderBiological Psychiatry, 74
B. Wijk, C. Stam, A. Daffertshofer (2010)
Comparing Brain Networks of Different Size and Connectivity Density Using Graph TheoryPLoS ONE, 5
Kechen Zhang, T. Sejnowski, T. Sejnowski (2000)
A universal scaling law between gray matter and white matter of cerebral cortex.Proceedings of the National Academy of Sciences of the United States of America, 97 10
L. Mottron, Michelle Dawson, I. Soulières, B. Hubert, J. Burack (2006)
Enhanced Perceptual Functioning in Autism: An Update, and Eight Principles of Autistic PerceptionJournal of Autism and Developmental Disorders, 36
Children with autism spectrum disorders (ASD) often exhibit motor clumsiness (Developmental Coordination Disorder, DCD), i.e. they struggle with everyday tasks that require motor coordination like dressing, self‐care, and participating in sport and leisure activities. Previous studies in these neurodevelopmental disorders have demonstrated functional abnormalities and alterations of white matter microstructural integrity in specific brain regions. These findings suggest that the global organization of brain networks is affected in DCD and ASD and support the hypothesis of a ‘dys‐connectivity syndrome’ from a network perspective. No studies have compared the structural covariance networks between ASD and DCD in order to look for the signature of DCD independent of comorbid autism. Here, we aimed to address the question of whether abnormal connectivity in DCD overlaps that seen in autism or comorbid DCD‐autism. Using graph theoretical analysis, we investigated differences in global and regional topological properties of structural brain networks in 53 children: 8 ASD children with DCD (DCD+ASD), 15 ASD children without DCD (ASD), 11 with DCD only, and 19 typically developing (TD) children. We constructed separate structural correlation networks based on cortical thickness derived from Freesurfer. The children were assessed on the Movement‐ABC and the Beery Test of Visual Motor Integration. Behavioral results demonstrated that the DCD group and DCD+ASD group scored on average poorer than the TD and ASD groups on various motor measures. Furthermore, although the brain networks of all groups exhibited small‐world properties, the topological architecture of the networks was significantly altered in children with ASD compared with DCD and TD. ASD children showed increased normalized path length and higher values of clustering coefficient. Also, paralimbic regions exhibited nodal clustering coefficient alterations in singular disorders. These changes were disorder‐specific, and included alterations in clustering coefficient in the isthmus of the right cingulate gyrus and the pars orbitalis of the right inferior frontal gyrus in ASD children, and DCD‐related increases in the lateral orbitofrontal cortex. Children meeting criteria for both DCD and ASD exhibited topological changes that were more widespread from those seen in children with only DCD, i.e. children with DCD+ASD showed alterations of clustering coefficient in (para)limbic regions, primary areas, and association areas. The DCD+ASD group showed changes in clustering coefficient in the left association cortex relative to the ASD group. Finally, the DCD+ASD group shared ASD‐specific abnormalities in the pars orbitalis of right inferior frontal gyrus, which was hypothesized to reflect atypical emotional‐cognitive processing. Our results provide evidence that DCD and ASD are neurodevelopmental disorders with a low degree of overlap in abnormalities in connectivity. The co‐occurrence of DCD+ASD was also associated with a distinct topological pattern, highlighting the unique neural signature of comorbid neurodevelopmental disorders.
Developmental Science – Wiley
Published: Jul 1, 2016
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