Yeungnam Univ J Med.  2000 Dec;17(2):108-122. 10.12701/yujm.2000.17.2.108.

Neurobiological Pathophysiology of Attention Deficit Hyperactivity Disorder

Affiliations
  • 1Department of Psychiatry College of Medicine, Yeungnam University Taegu, Korea.

Abstract

BACKGROUND: Models of attention deficit hyperactivity disorder(ADHD) that have proposed a hypodopaminergic state resulting in hypofunction of the prefrontal circuitry have assumed a unitary dopamine system, which largely ignores the distinct functional differences between mesocortical dopamine system and nigrostriatal dopamine system. PURPOSE: The author's goal was to develop a pathophysiological model for ADHD with greater explanotory power than dopaminergic hypofunction hypothesis in prefronal circuitry.
MATERIALS AND METHODS
Published clinical findings on ADHD were integrated with data from genetic, pharmacological, neuroimaging studies in human and animals.
RESULTS
Molecular genetic studies suggest that three genes may increase the susceptibility to ADHD. The three candidate genes associated with ADHD are each involved in dopaminergic function, and this consistent with the neurobiologic studies implicating catecholamines in the etiology of ADHD. Pharmacological data also provide compelling support for dopamine and noradrenergic hypothesis of ADHD. Neuroimaging studies lend substantial support for the hypothesis that right-sided abnormalities of prefrontal-basal ganglia circuit would be found in ADHD.
CONCLUSIONS
The present hypothesis takes advantage of the major differences between the two pertinent dopamine systems. Mesocortical dopamine system, which largely lacks inhibitory autoreceptors, is ideally positioned to regulate cortical inputs, thus improving the signal-to-noise ratio for biologically valued signals. In this circuit, therapeutic doses of stimulants are hypothesized to increase postsynaptic dopamine effects and enhance executive functions. By contrast, symptoms of hyperactivity/impulsivity in ADHD are hypothesized to be associated with relative overactivity of nigrostriatal circuit. This nigrostriatal circuit is tightly regulated by inhibitory autoreceptoors as well as by long distance feedback from the cortex, and slow diffusion of therapeutic doses of stimulant via oral administration is hypothesized to produce a net inhibition of dopaminergic neurotransmission and improves hyperactivity.

Keyword

Attention dificit hyperactivity disorder; Pathophysiology; Dopamine; Prefrontal circuit

MeSH Terms

Administration, Oral
Animals
Attention Deficit Disorder with Hyperactivity*
Autoreceptors
Catecholamines
Diffusion
Dopamine
Dopamine Agents
Executive Function
Ganglia
Humans
Molecular Biology
Neuroimaging
Signal-To-Noise Ratio
Synaptic Transmission
Autoreceptors
Catecholamines
Dopamine
Dopamine Agents
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