Preventive Interventions for ADHD: a Neurodevelopmental Perspective

Overview

Journal Neurotherapeutics

Specialty Neurology

Date 2012 Jun 14

PMID 22692794

Citations 48

Authors

Jeffrey M Halperin

Anne-Claude V Bedard

Jocelyn T Curchack-Lichtin

Affiliations

Soon will be listed here.

Abstract

It is proposed that the time is ripe for the development of secondary preventive interventions for attention-deficit/hyperactivity disorder (ADHD). By targeting preschool children, a developmental stage during which ADHD symptoms first become evident in most children with the disorder, many of the adverse long-term consequences that typify the trajectory of ADHD may be avoided. A dynamic/interactive model of the biological and environmental factors that contribute to the emergence and persistence of ADHD throughout the lifespan is proposed. Based on this model, it is argued that environmental influences and physical exercise can be used to enhance neural growth and development, which in turn should have an enduring and long-term impact on the trajectory of ADHD. Central to this notion are 2 hypotheses: 1) environmental influences can facilitate structural and functional brain development, and 2) changes in brain structure and function are directly related to ADHD severity over the course of development and the degree to which the disorder persists or remits with time. We present experimental and correlational data supporting the first hypothesis and longitudinal data in individuals with ADHD supporting the second. The case is made for initiating such an intervention during the preschool years, when the brain is likely to be more "plastic" and perhaps susceptible to lasting modifications, and before complicating factors, such as comorbid psychiatric disorders, academic failure, and poor social and family relationships emerge, making successful treatment more difficult. Finally, we review recent studies in young children with ADHD that might fall under the umbrella of secondary prevention.

Citing Articles

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The utility of multiple assessments in infancy and toddlerhood to predict middle childhood ADHD symptoms: Temperamental, behavioral, and genetic contributions.

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A multi-omics study of brain tissue transcription and DNA methylation revealing the genetic pathogenesis of ADHD.

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Trajectory Analysis for Identifying Classes of Attention Deficit Hyperactivity Disorder (ADHD) in Children of the United States.

Lee Y, Sprong M, Shrestha J, Smeltzer M, Hollender H Clin Pract Epidemiol Ment Health. 2024; 20:e17450179298863.

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Identifying non-adult attention-deficit/hyperactivity disorder individuals using a stacked machine learning algorithm using administrative data population registers in a universal healthcare system.

Roche D, Mora T, Cid J JCPP Adv. 2024; 4(1):e12193.

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