Edward S. Novey scite author profile

Although behavioral evidence provides support for the notion that attention deficit-hyperactivity disorder (ADHD) is related to central nervous system dysfunction, there is little direct evidence to reveal which neurometabolic systems or brain structures are involved. Recent magnetic resonance imaging (MRI) studies suggest that, compared to nondisabled controls, ADHD children may have a smaller right frontal region. Morphometric analysis of MRI scans was used in this exploratory study to determine whether correlated regional variation might exist in the corpus callosum of children with ADHD. While all MRI scans were judged to be clinically normal, morphometric analysis revealed that, compared to nondisabled controls, ADHD children had a smaller corpus callosum, particularly in the region of the genu and splenium, and in the area just anterior to the splenium. Interhemispheric fibers in these regions interconnect the left and right frontal, occipital, parietal, and posterior temporal regions. These results suggest that subtle differences may exist in the brains of children with ADHD and that deviations in normal corticogenesis may underlie the behavioral manifestations of this disorder.

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Attention Deficit- Hyperactivity Disorder and Asymmetry of the Caudate Nucleus

Hynd

Hern

Novey³

et al. 1993

J Child Neurol

348

156

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The neurologic basis of attention deficit-hyperactivity disorder (ADHD) is poorly understood. Based on previous studies that have implicated metabolic deficiencies in the caudate-striatal region in ADHD, we employed magnetic resonance imaging to investigate patterns of morphology of the head of the caudate nucleus in normal and ADHD children. In normal children, 72.7% evidenced a left-larger-than-right (L > R) pattern of asymmetry, whereas 63.6% of the ADHD children had the reverse (L < R) pattern of asymmetry of the head of the caudate nucleus. This reversal of normal asymmetry in ADHD children was due to a significantly smaller left caudate nucleus. The reversal in asymmetry of the head of the caudate was most notable in ADHD males. These results suggest that normal (L > R) morphologic asymmetry in the region of the caudate nucleus may be related to asymmetries observed in neurotransmitter systems implicated in ADHD. The behavioral symptoms of ADHD may reflect disinhibition from normal levels of dominant hemispheric control, possibly correlated with deviations in asymmetric caudate-striatal morphology and deficiencies in associated neurotransmitter systems.

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Dyslexia and Corpus Callosum Morphology

Hynd¹,

Hall²,

Novey³

et al. 1995

Archives of Neurology

194

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Dyslexia and brain morphology: Relationships between neuroanatomical variation and neurolinguistic tasks

Semrud‐Clikeman

Hynd

Novey³

et al. 1991

Learning and Individual Differences

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Edward S. Novey

Brain Morphology in Developmental Dyslexia and Attention Deficit Disorder/Hyperactivity

Corpus Callosum Morphology in Attention Deficit-Hyperactivity Disorder: Morphometric Analysis of MRI

Attention Deficit- Hyperactivity Disorder and Asymmetry of the Caudate Nucleus

Dyslexia and Corpus Callosum Morphology

Dyslexia and brain morphology: Relationships between neuroanatomical variation and neurolinguistic tasks

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