Autism Brain Tissue Banking

One avenue of progress toward understanding the neurobiological basis of autism is through the detailed study of the post‐mortem brain from affected individuals. The primary purpose of autism brain tissue banking is to make well‐characterized and optimally preserved post‐mortem brain tissue available to the neuroscience research community. In this paper we discuss our current understanding of the criteria for optimal characterization and preservation of post‐mortem brain tissue; the pitfalls associated with inadequate clinical and neuropathological characterization and the advantages and disadvantages of post‐mortem studies of the brain. We then describe the current status of the brain tissue bank supported by the Autism Tissue Program, including the demographic characteristics of the tissue donors, post‐mortem interval, sex, age and the method of preservation. Finally, we provide information on the policies and procedures that govern the distribution of brain specimens by this bank and the nature of the studies that are currently being supported directly by this program.

[1]  M. Casanova Neuropathological and Genetic Findings in Autism: The Significance of a Putative Minicolumnopathy , 2006, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.

[2]  T. Kemper,et al.  Neuropathology of infantile autism , 1998, Molecular Psychiatry.

[3]  J. Hardy,et al.  A Comparison of Methodologies for the Study of Functional Transmitter Neurochemistry in Human Brain , 1988, Journal of neurochemistry.

[4]  H. Kraemer,et al.  State of the science in autism: Report to the National institutes of health , 1996, Journal of autism and developmental disorders.

[5]  P. Jansen,et al.  Diagnostic errors; the need to have autopsies. , 2006, The Netherlands journal of medicine.

[6]  E. London,et al.  The Neuropathology of Autism: A Review , 2005, Journal of neuropathology and experimental neurology.

[7]  Henriette Franz,et al.  Systematic analysis of gene expression in human brains before and after death , 2005, Genome Biology.

[8]  J. Kleinman,et al.  Reliability of psychiatric diagnosis in postmortem research , 2005, Biological Psychiatry.

[9]  R. Yolken,et al.  Multivariate analysis of RNA levels from postmortem human brains as measured by three different methods of RT-PCR , 1997, Journal of Neuroscience Methods.

[10]  B. Winblad,et al.  The patients dying after long terminal phase have acidotic brains; implications for biochemical measurements on autopsy tissue , 2005, Journal of Neural Transmission.

[11]  Jane Pickett Current Investigations in Autism Brain Tissue Research , 2001, Journal of autism and developmental disorders.

[12]  J. Pevsner,et al.  Postmortem brain abnormalities of the glutamate neurotransmitter system in autism , 2001, Neurology.

[13]  M. Davies,et al.  Clinicians didn't reliably distinguish between different causes of cardiac death using case histories. , 2006, Journal of clinical epidemiology.

[14]  P. Hasleton,et al.  Discrepancies between clinical and autopsy diagnosis and the value of post mortem histology; a meta‐analysis and review , 2005, Histopathology.

[15]  Joseph B. Martin,et al.  Amino acid neurotransmitters in postmortem human brain analyzed by high performance liquid chromatography with electrochemical detection , 1987, Journal of Neuroscience Methods.

[16]  Eric Courchesne,et al.  Localized enlargement of the frontal cortex in early autism , 2005, Biological Psychiatry.

[17]  R B Innis,et al.  Postmortem Stability of Monoamines, Their Metabolites, and Receptor Binding in Rat Brain Regibns , 1994, Journal of neurochemistry.

[18]  D M Bowen,et al.  Neurotransmitter-related enzymes and indices of hypoxia in senile dementia and other abiotrophies. , 1976, Brain : a journal of neurology.

[19]  N. Cairns,et al.  Quantifying mRNA in postmortem human brain: influence of gender, age at death, postmortem interval, brain pH, agonal state and inter-lobe mRNA variance. , 2003, Brain research. Molecular brain research.

[20]  M. Bauman Brief report: Neuroanatomic observations of the brain in pervasive developmental disorders , 1996, Journal of autism and developmental disorders.

[21]  Eric Courchesne,et al.  Brain overgrowth in autism during a critical time in development: implications for frontal pyramidal neuron and interneuron development and connectivity , 2005, International Journal of Developmental Neuroscience.

[22]  G. Freund,et al.  Glutamate receptors in the frontal cortex of alcoholics. , 1996, Alcoholism, clinical and experimental research.

[23]  K. Syndulko,et al.  Human neuro-specimen banking 1961-1992. The National Neurological Research Specimen Bank (a donor program of pre- and post-mortem tissues and cerebrospinal fluid/blood; and a collection of cryopreserved human neurological specimens for neuroscientists). , 1993, Journal of neural transmission. Supplementum.

[24]  V. Haroutunian,et al.  Variations in differential gene expression patterns across multiple brain regions in schizophrenia , 2005, Schizophrenia Research.

[25]  N. Mahy Brain banks and research in neurochemistry. , 1993, Journal of neural transmission. Supplementum.

[26]  C. Hulette Brain Banking in the United States , 2003, Journal of neuropathology and experimental neurology.

[27]  E. Spokes An analysis of factors influencing measurements of dopamine, noradrenaline, glutamate decarboxylase and choline acetylase in human post-mortem brain tissue. , 1979, Brain : a journal of neurology.

[28]  Ana Gadea,et al.  Glial transporters for glutamate, glycine and GABA I. Glutamate transporters , 2001, Journal of neuroscience research.

[29]  E H Cook,et al.  Quantifying the phenotype in autism spectrum disorders. , 2001, American journal of medical genetics.

[30]  F. Mushtaq,et al.  Do we know what people die of in the emergency department? , 2005, Emergency Medicine Journal.

[31]  C. Harper,et al.  Ethanol and brain damage. , 2005, Current opinion in pharmacology.

[32]  R. C. Collins,et al.  Excitotoxic mechanisms of epileptic brain damage. , 1986, Advances in neurology.

[33]  B. Pritt,et al.  Death certification errors at an academic institution. , 2009, Archives of pathology & laboratory medicine.

[34]  J. Kleinman,et al.  Critical Factors in Gene Expression in Postmortem Human Brain: Focus on Studies in Schizophrenia , 2006, Biological Psychiatry.

[35]  M. Esiri Brain banks: the Oxford experience. , 1993, Journal of neural transmission. Supplementum.

[36]  M. Tennant,et al.  Postmortem Human Brain pH and Lactate in Sudden Infant Death Syndrome , 1989, Journal of neurochemistry.

[37]  Paul J. Harrison,et al.  The relative importance of premortem acidosis and postmortem interval for human brain gene expression studies: selective mRNA vulnerability and comparison with their encoded proteins , 1995, Neuroscience Letters.

[38]  The development of a brain bank. , 1993, Journal of neural transmission. Supplementum.

[39]  Patrick R Hof,et al.  Recommendations for straightforward and rigorous methods of counting neurons based on a computer simulation approach , 2000, Journal of Chemical Neuroanatomy.

[40]  Mijna Hadders-Algra,et al.  Ontogeny of the human central nervous system: what is happening when? , 2006, Early human development.

[41]  Patrick R Hof,et al.  Practical approaches to stereology in the setting of aging- and disease-related brain banks , 2000, Journal of Chemical Neuroanatomy.

[42]  E. Courchesne,et al.  When Is the Brain Enlarged in Autism? A Meta-Analysis of All Brain Size Reports , 2005, Biological Psychiatry.

[43]  B. Pakkenberg,et al.  New stereological method for obtaining unbiased and efficient estimates of total nerve cell number in human brain areas , 1989, APMIS : acta pathologica, microbiologica, et immunologica Scandinavica.

[44]  A. Brooks-Kayal,et al.  Developmental changes in human gamma-aminobutyric acidA receptor subunit composition. , 1993, Annals of neurology.

[45]  James P. Bennett,et al.  Stability of gene expression in postmortem brain revealed by cDNA gene array analysis , 2002, Brain Research.

[46]  B. Ravina,et al.  Brain banking for neurodegenerative diseases , 2003, Current opinion in neurology.

[47]  B. Winblad,et al.  How to run a brain bank: potentials and pitfalls in the use of human post-mortem brain material in research. , 1993, Journal of neural transmission. Supplementum.

[48]  S. Potkin,et al.  A method for fixation of previously fresh-frozen human adult and fetal brains that preserves histological quality and immunoreactivity , 1992, Journal of Neuroscience Methods.

[49]  T. Paus Mapping brain maturation and cognitive development during adolescence , 2005, Trends in Cognitive Sciences.

[50]  P. Levitt Structural and functional maturation of the developing primate brain. , 2003, The Journal of pediatrics.

[51]  H. J. G. Gundersen,et al.  The new stereological tools: Disector, fractionator, nucleator and point sampled intercepts and their use in pathological research and diagnosis , 1988, APMIS : acta pathologica, microbiologica, et immunologica Scandinavica.

[52]  A. Mckee Brain banking: basic science methods. , 1999, Alzheimer disease and associated disorders.

[53]  K. Ravakhah Death Certificates Are Not Reliable: Revivification of the Autopsy , 2006, Southern medical journal.