Neuropathological findings in autism

Saskia J.M.C. Palmen; Herman Van Engeland; Patrick R. Hof; Christoph Schmitz

doi:10.1093/brain/awh287

Neuropathological findings in autism

Saskia J.M.C. Palmen, Herman Van Engeland, Patrick R. Hof, Christoph Schmitz

Research output: Contribution to journal › Review article › peer-review

424 Scopus citations

Abstract

Autism is currently viewed as a largely genetically determined neurodevelopmental disorder, although its underlying biological causes remain to be established. In this review, we examine the available neuropathological literature on autism and discuss the findings that have emerged. Classic neuropathological observations are rather consistent with respect to the limbic system (nine of 14 studied cases showed increased cell packing density and smaller neuronal size), the cerebellum (21 of 29 studied cases showed a decreased number of Purkinje cells, and in all of five cases that were examined for age-related morphological alterations, these changes were found in cerebellar nuclei and inferior olive) and the cerebral cortex (>50% of the studied cases showed features of cortical dysgenesis). However, all reported studies had to contend with the problem of small sample sizes, the use of quantification techniques not free of bias and assumptions, and high percentages of autistic subjects with comorbid mental retardation (at least 70%) or epilepsy (at least 40%). Furthermore, data from the limbic system and on age-related changes lack replication by independent groups. It is anticipated that future neuropathological studies hold great promise, especially as new techniques such as design-based stereology and gene expression are increasingly implemented and combined, larger samples are analysed, and younger subjects free of comorbidities are investigated.

Original language	English
Pages (from-to)	2572-2583
Number of pages	12
Journal	Brain
Volume	127
Issue number	12
DOIs	https://doi.org/10.1093/brain/awh287
State	Published - Dec 2004

Keywords

Autism
Cerebellum
Cerebral cortex
Limbic system
Neuropathology

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@article{eb52e1ae35344f359fc7bf4b8cd8c7d3,

title = "Neuropathological findings in autism",

abstract = "Autism is currently viewed as a largely genetically determined neurodevelopmental disorder, although its underlying biological causes remain to be established. In this review, we examine the available neuropathological literature on autism and discuss the findings that have emerged. Classic neuropathological observations are rather consistent with respect to the limbic system (nine of 14 studied cases showed increased cell packing density and smaller neuronal size), the cerebellum (21 of 29 studied cases showed a decreased number of Purkinje cells, and in all of five cases that were examined for age-related morphological alterations, these changes were found in cerebellar nuclei and inferior olive) and the cerebral cortex (>50% of the studied cases showed features of cortical dysgenesis). However, all reported studies had to contend with the problem of small sample sizes, the use of quantification techniques not free of bias and assumptions, and high percentages of autistic subjects with comorbid mental retardation (at least 70%) or epilepsy (at least 40%). Furthermore, data from the limbic system and on age-related changes lack replication by independent groups. It is anticipated that future neuropathological studies hold great promise, especially as new techniques such as design-based stereology and gene expression are increasingly implemented and combined, larger samples are analysed, and younger subjects free of comorbidities are investigated.",

keywords = "Autism, Cerebellum, Cerebral cortex, Limbic system, Neuropathology",

author = "Palmen, {Saskia J.M.C.} and {Van Engeland}, Herman and Hof, {Patrick R.} and Christoph Schmitz",

note = "Funding Information: We wish to thank the following institutions and colleagues for the provision of human tissue: the Harvard Brain Tissue Research Center (Belmont, MA), the University of Maryland Brain and Tissue Bank for Developmental Disorders (Baltimore, MD), the US Autism Tissue Program (Princeton, NJ), Dr J. Wegiel (New York State Institute for Basic Research in Developmental Disabilities, Staten Island, NY) and NIH grant NO1 HD13138. The work was financially supported by the European Community (Quality of Life and Management of Living Resources, QLK6-CT-2000-60042, QLK6-GH-00-60042-56; to S.J.M.C.P.), the Korczak foundation (to H.v.E.), the US National Alliance for Autism Research (to C.S. and P.R.H.) and by NIH grant MH66392 (to P.R.H.). P.R.H. is the Regenstreif Professor of Neuroscience. We thank Dr D. P. Perl and Dr H. Heinsen for support and helpful discussion.",

year = "2004",

month = dec,

doi = "10.1093/brain/awh287",

language = "English",

volume = "127",

pages = "2572--2583",

journal = "Brain",

issn = "0006-8950",

publisher = "Oxford University Press",

number = "12",

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TY - JOUR

T1 - Neuropathological findings in autism

AU - Palmen, Saskia J.M.C.

AU - Van Engeland, Herman

AU - Hof, Patrick R.

AU - Schmitz, Christoph

N1 - Funding Information: We wish to thank the following institutions and colleagues for the provision of human tissue: the Harvard Brain Tissue Research Center (Belmont, MA), the University of Maryland Brain and Tissue Bank for Developmental Disorders (Baltimore, MD), the US Autism Tissue Program (Princeton, NJ), Dr J. Wegiel (New York State Institute for Basic Research in Developmental Disabilities, Staten Island, NY) and NIH grant NO1 HD13138. The work was financially supported by the European Community (Quality of Life and Management of Living Resources, QLK6-CT-2000-60042, QLK6-GH-00-60042-56; to S.J.M.C.P.), the Korczak foundation (to H.v.E.), the US National Alliance for Autism Research (to C.S. and P.R.H.) and by NIH grant MH66392 (to P.R.H.). P.R.H. is the Regenstreif Professor of Neuroscience. We thank Dr D. P. Perl and Dr H. Heinsen for support and helpful discussion.

PY - 2004/12

Y1 - 2004/12

N2 - Autism is currently viewed as a largely genetically determined neurodevelopmental disorder, although its underlying biological causes remain to be established. In this review, we examine the available neuropathological literature on autism and discuss the findings that have emerged. Classic neuropathological observations are rather consistent with respect to the limbic system (nine of 14 studied cases showed increased cell packing density and smaller neuronal size), the cerebellum (21 of 29 studied cases showed a decreased number of Purkinje cells, and in all of five cases that were examined for age-related morphological alterations, these changes were found in cerebellar nuclei and inferior olive) and the cerebral cortex (>50% of the studied cases showed features of cortical dysgenesis). However, all reported studies had to contend with the problem of small sample sizes, the use of quantification techniques not free of bias and assumptions, and high percentages of autistic subjects with comorbid mental retardation (at least 70%) or epilepsy (at least 40%). Furthermore, data from the limbic system and on age-related changes lack replication by independent groups. It is anticipated that future neuropathological studies hold great promise, especially as new techniques such as design-based stereology and gene expression are increasingly implemented and combined, larger samples are analysed, and younger subjects free of comorbidities are investigated.

AB - Autism is currently viewed as a largely genetically determined neurodevelopmental disorder, although its underlying biological causes remain to be established. In this review, we examine the available neuropathological literature on autism and discuss the findings that have emerged. Classic neuropathological observations are rather consistent with respect to the limbic system (nine of 14 studied cases showed increased cell packing density and smaller neuronal size), the cerebellum (21 of 29 studied cases showed a decreased number of Purkinje cells, and in all of five cases that were examined for age-related morphological alterations, these changes were found in cerebellar nuclei and inferior olive) and the cerebral cortex (>50% of the studied cases showed features of cortical dysgenesis). However, all reported studies had to contend with the problem of small sample sizes, the use of quantification techniques not free of bias and assumptions, and high percentages of autistic subjects with comorbid mental retardation (at least 70%) or epilepsy (at least 40%). Furthermore, data from the limbic system and on age-related changes lack replication by independent groups. It is anticipated that future neuropathological studies hold great promise, especially as new techniques such as design-based stereology and gene expression are increasingly implemented and combined, larger samples are analysed, and younger subjects free of comorbidities are investigated.

KW - Autism

KW - Cerebellum

KW - Cerebral cortex

KW - Limbic system

KW - Neuropathology

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U2 - 10.1093/brain/awh287

DO - 10.1093/brain/awh287

M3 - Review article

C2 - 15329353

AN - SCOPUS:10344221119

SN - 0006-8950

VL - 127

SP - 2572

EP - 2583

JO - Brain

JF - Brain

IS - 12

ER -

Neuropathological findings in autism

Abstract

Keywords

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