Cerebral Lobes in Autism: Early Hyperplasia and Abnormal Age Effects

Metabolic, functional, behavioral, and histologic studies suggest that the structure of the cerebrum may be abnormal in autism. In a previous cross-sectional study we found abnormal enlargement of cerebral cortex and cerebral white matter volumes in autistic 2- and 3-year-olds and abnormally slow rates of volume change across later ages. In the present study, we assessed whether these volume abnormalities are limited to particular cerebral regions or are pervasive throughout the cerebrum. We used magnetic resonance imaging (MRI) to quantify volumes of cerebral lobes (frontal, temporal, parietal, and occipital regions), using classic sulcal boundaries to define regions. We examined 38 boys with autism and 39 normal control boys between the ages of 2 and 11 years. Several regions showed signs of gray matter and white matter hyperplasia in 2- and 3-year-old patients (as much as 20% enlargement), but there appeared to be an anterior to posterior gradient in the degree of hyperplasia. The frontal lobe showed the greatest enlargement while the occipital lobe was not significantly different from normal. Gray and white matter differences were not found in the older children. By examining the relationships between regional volumes and subject age, we found that frontal, temporal, and parietal white matter volumes, as well as frontal and temporal gray matter volumes, changed at significantly slower rates in autism patients than in controls across the 2- to 11-year-age range. For example, frontal lobe white matter volume increased by about 45% from 2-4 years of age to 9-11.5 years, but by only 13% in autistic patients. Mechanisms that might account for early hyperplasia are discussed as they might relate to the regional differences in degree of abnormality. For instance, possible influences of neurotrophic factors, or of abnormal afferent activity from other affected brain regions are considered.

[1]  Jan Voogd,et al.  The human central nervous system : a synopsis and atlas , 1978 .

[2]  Eric Schopler,et al.  Learning and cognition in autism , 1995 .

[3]  R. Darlington,et al.  Regression and Linear Models , 1990 .

[4]  H. Killackey,et al.  Neocortical Expansion: An Attempt toward Relating Phylogeny and Ontogeny , 1990, Journal of Cognitive Neuroscience.

[5]  B. Pennington,et al.  Executive function deficits in high-functioning autistic individuals: relationship to theory of mind. , 1991, Journal of child psychology and psychiatry, and allied disciplines.

[6]  E Courchesne,et al.  Exploring the neurofunctional organization of face processing in autism. , 2000, Archives of general psychiatry.

[7]  R. S. Williams,et al.  Autism and mental retardation: neuropathologic studies performed in four retarded persons with autistic behavior. , 1980, Archives of neurology.

[8]  E Courchesne,et al.  Development of the hippocampal formation from 2 to 42 years: MRI evidence of smaller area dentata in autism. , 2001, Brain : a journal of neurology.

[9]  R. Vejsada,et al.  Neuronal deficits, not involving motor neurons, in mice lacking BDNF and/or NT4 , 1995, Nature.

[10]  E. Courchesne,et al.  Atypical patterns of cerebral motor activation in autism: a functional magnetic resonance study , 2001, Biological Psychiatry.

[11]  Joseph Piven,et al.  SPECT findings in mentally retarded autistic individuals , 2000 .

[12]  M. Leboyer,et al.  SPECT OF THE BRAIN IN CHILDHOOD AUTISM: EVIDENCE FOR A LACK OF NORMAL HEMISPHERIC ASYMMETRY , 1995, Developmental medicine and child neurology.

[13]  P Fehlow,et al.  [Early infantile autism and excessive aerophagy with symptomatic megacolon and ileus in a case of Ehlers-Danlos syndrome]. , 1993, Padiatrie und Grenzgebiete.

[14]  R A Margolin,et al.  Brain metabolism in autism. Resting cerebral glucose utilization rates as measured with positron emission tomography. , 1985, Archives of general psychiatry.

[15]  T. Uema,et al.  Abnormal regional cerebral blood flow in childhood autism. , 2000, Brain : a journal of neurology.

[16]  J. Dambrosia,et al.  Neuropeptides and neurotrophins in neonatal blood of children with autism or mental retardation , 2001, Annals of neurology.

[17]  A. Lincoln,et al.  The Assessment and Interpretation of Intellectual Abilities in People with Autism , 1995 .

[18]  C. Shatz,et al.  Inhibition of ocular dominance column formation by infusion of NT-4/5 or BDNF , 1995, Science.

[19]  H Matsuda,et al.  Single-photon emission computed tomography of the brain in autism: effect of the developmental level. , 2000, Pediatric neurology.

[20]  F. Volkmar,et al.  Abnormal ventral temporal cortical activity during face discrimination among individuals with autism and Asperger syndrome. , 2000, Archives of general psychiatry.

[21]  H. Duvernoy The Human Hippocampus: An Atlas of Applied Anatomy , 1988 .

[22]  Y. Samson,et al.  Delayed maturation of the frontal cortex in childhood autism. , 1995, The American journal of psychiatry.

[23]  N C Andreasen,et al.  Automatic atlas-based volume estimation of human brain regions from MR images. , 1996, Journal of computer assisted tomography.

[24]  J. Townsend,et al.  Normal brain development and aging: quantitative analysis at in vivo MR imaging in healthy volunteers. , 2000, Radiology.

[25]  E. Cabanis,et al.  The Human Brain: Surface, Three-Dimensional Sectional Anatomy and Mri , 1991 .

[26]  A. Mayes,et al.  Convergent neuroanatomical and behavioural evidence of an amygdala hypothesis of autism , 2000, Neuroreport.

[27]  G. Paxinos,et al.  THE HUMAN NERVOUS SYSTEM , 1975 .

[28]  E. Bullmore,et al.  Social intelligence in the normal and autistic brain: an fMRI study , 1999, The European journal of neuroscience.

[29]  G ARTHUR,et al.  The Arthur adaptation of the Leiter international performance scale. , 1949, Journal of clinical psychology.

[30]  T. Kemper,et al.  Neuropathology of infantile autism. , 1998, Journal of neuropathology and experimental neurology.

[31]  E K Perry,et al.  Cholinergic activity in autism: abnormalities in the cerebral cortex and basal forebrain. , 2001, The American journal of psychiatry.

[32]  J. Mountz,et al.  Functional deficits in autistic disorder: characterization by technetium-99m-HMPAO and SPECT. , 1995, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[33]  R. L. Butterfield,et al.  Multispectral analysis of magnetic resonance images. , 1985, Radiology.

[34]  Heather J. Chisum,et al.  Neural activity-dependent brain changes in development: Implications for psychopathology , 1994, Development and Psychopathology.

[35]  S Arndt,et al.  No Difference in Hippocampus Volume Detected on Magnetic Resonance Imaging in Autistic Individuals , 1998, Journal of autism and developmental disorders.

[36]  A. Couteur,et al.  Autism Diagnostic Interview-Revised: A revised version of a diagnostic interview for caregivers of individuals with possible pervasive developmental disorders , 1994, Journal of autism and developmental disorders.

[37]  E T Bullmore,et al.  Cerebral correlates of preserved cognitive skills in autism: a functional MRI study of embedded figures task performance. , 1999, Brain : a journal of neurology.

[38]  小野 道夫,et al.  Atlas of the Cerebral Sulci , 1990 .

[39]  A. Bailey,et al.  A clinicopathological study of autism. , 1998, Brain : a journal of neurology.

[40]  Dong Ik Kim,et al.  Perfusion impairments in infantile autism on technetium-99m ethyl cysteinate dimer brain single-photon emission tomography: comparison with findings on magnetic resonance imaging , 1999, European Journal of Nuclear Medicine.

[41]  C. Kordon,et al.  Distinct populations of hypothalamic dopaminergic neurons exhibit differential responses to brain‐derived neurotrophic factor (BDNF) and neurotrophin‐3 (NT3) , 1999, The European journal of neuroscience.

[42]  Richard J. Harris,et al.  Cerebellar hypoplasia and frontal lobe cognitive deficits in disorders of early childhood , 1997, Neuropsychologia.

[43]  R. Kikinis,et al.  Age-related changes in intracranial compartment volumes in normal adults assessed by magnetic resonance imaging. , 1996, Journal of neurosurgery.

[44]  E. Courchesne,et al.  Abnormality of cerebellar vermian lobules VI and VII in patients with infantile autism: identification of hypoplastic and hyperplastic subgroups with MR imaging. , 1994, AJR. American journal of roentgenology.

[45]  T. Sejnowski,et al.  Irresistible environment meets immovable neurons , 1997, Behavioral and Brain Sciences.

[46]  P. Coleman,et al.  Cell counts in cerebral cortex of an autistic patient , 1985, Journal of autism and developmental disorders.

[47]  Eric Courchesne,et al.  Neurologic Abnormalities in Infantile Autism , 1996, Journal of child neurology.

[48]  E. Courchesne,et al.  Hypoplasia of cerebellar vermal lobules VI and VII in autism. , 1988, The New England journal of medicine.

[49]  E Courchesne,et al.  Cross‐sectional area of the posterior hippocampus in autistic patients with cerebellar and corpus callosum abnormalitiGs , 1995, Neurology.

[50]  S Arndt,et al.  Regional brain enlargement in autism: a magnetic resonance imaging study. , 1996, Journal of the American Academy of Child and Adolescent Psychiatry.

[51]  P. Strick,et al.  Anatomical evidence for cerebellar and basal ganglia involvement in higher cognitive function. , 1994, Science.

[52]  E Courchesne,et al.  Abnormal neuroanatomy in a nonretarded person with autism. Unusual findings with magnetic resonance imaging. , 1987, Archives of neurology.

[53]  Ruth A. Carper,et al.  Inverse correlation between frontal lobe and cerebellum sizes in children with autism. , 2000, Brain : a journal of neurology.

[54]  Otto Muzik,et al.  Impairment of dentato-thalamo-cortical pathway in autistic men: language activation data from positron emission tomography , 1998, Neuroscience Letters.

[55]  M. A. Merrill,et al.  Stanford-Binet Intelligence Scale , 1972 .

[56]  Jacob Cohen,et al.  Applied multiple regression/correlation analysis for the behavioral sciences , 1979 .

[57]  K Kouris,et al.  Cerebral Blood Flow Abnormalities in Adults with Infantile Autism , 1992, The Journal of nervous and mental disease.

[58]  M. Quintana,et al.  Diaschisis and neuropsychological performance after cerebellar stroke. , 1997, European neurology.

[59]  G. Lyon,et al.  NEUROPATHOLOGICAL STUDY OF A CASE OF AUTISTIC SYNDROME WITH SEVERE MENTAL RETARDATION , 1996, Developmental medicine and child neurology.

[60]  T. Hashimoto,et al.  Development of the brainstem and cerebellum in autistic patients , 1995, Journal of autism and developmental disorders.

[61]  Ruth A. Carper,et al.  Neuroanatomic contributions to slowed orienting of attention in children with autism. , 1999, Brain research. Cognitive brain research.

[62]  Rudolf Jaenisch,et al.  Sensory but not motor neuron deficits in mice lacking NT4 and BDNF , 1995, Nature.

[63]  D. Pandya,et al.  Anatomic Organization of the Basilar Pontine Projections from Prefrontal Cortices in Rhesus Monkey , 1997, The Journal of Neuroscience.

[64]  P A Narayana,et al.  Reproducibility of nonparametric feature map segmentation for determination of normal human intracranial volumes with MR imaging data , 1994, Journal of magnetic resonance imaging : JMRI.

[65]  R. Nass,et al.  Brief report: Regional cerebral blood flow in autism , 1984, Journal of autism and developmental disorders.

[66]  A L Reiss,et al.  Neuroanatomical and neurocognitive differences in a pair of monozygous twins discordant for strictly defined autism , 1998, Annals of neurology.

[67]  James T. McCracken,et al.  Cerebellar vermis lobules VIII — X in autism , 1999, Progress in Neuro-Psychopharmacology and Biological Psychiatry.

[68]  A. Scheibel,et al.  Lower Purkinje cell counts in the cerebella of four autistic subjects: initial findings of the UCLA-NSAC Autopsy Research Report. , 1986, The American journal of psychiatry.

[69]  Ruth A. Carper,et al.  Unusual brain growth patterns in early life in patients with autistic disorder , 2001, Neurology.

[70]  Barry M. Prizant,et al.  Autism spectrum disorders : a transactional developmental perspective , 2000 .

[71]  M. Torrens Co-Planar Stereotaxic Atlas of the Human Brain—3-Dimensional Proportional System: An Approach to Cerebral Imaging, J. Talairach, P. Tournoux. Georg Thieme Verlag, New York (1988), 122 pp., 130 figs. DM 268 , 1990 .

[72]  G. Paxinos,et al.  Atlas of the Human Brain , 2000 .

[73]  A. Parent,et al.  Carpenter's Human Neuroanatomy , 1996 .

[74]  E. Courchesne,et al.  Face processing occurs outside the fusiform 'face area' in autism: evidence from functional MRI. , 2001, Brain : a journal of neurology.

[75]  N. Minshew,et al.  MRI volumes of amygdala and hippocampus in non–mentally retarded autistic adolescents and adults , 1999, Neurology.

[76]  A. Galaburda,et al.  Human Cerebral Cortex: Localization, Parcellation, and Morphometry with Magnetic Resonance Imaging , 1992, Journal of Cognitive Neuroscience.

[77]  A. Dahlström,et al.  Morphological study of neocortical areas in Rett syndrome , 1996, Acta Neuropathologica.