BACKGROUND: Behavioral genetic studies provide strong evidence that attention-deficit/hyperactivity disorder (ADHD) has a substantial genetic component. Yet, due to the complexity of the ADHD phenotype, questions remain as to the specific genes that contribute to this condition as well as the pathways from genes to behavior. Endophenotypes, or phenotypes that are more closely linked to the neurobiological substrate of a disorder, offer the potential to address these two issues simultaneously (Freedman, Adler, & Leonard, 1999). Thus far, potential endophenotypes for ADHD have not been systematically studied. METHOD: The current paper reviews evidence supporting the use of deficits on neurocognitive measures of executive functions for this purpose. RESULTS: Such deficits are a correlate of ADHD and show preliminary evidence of heritability and association with relevant candidate genes. Nonetheless, studies that have assessed the familial and genetic overlap of neurocognitive impairments with ADHD have yielded inconsistent results. CONCLUSIONS: In order for executive function deficits to be used as an endophenotype for ADHD, we recommend greater attention to the neurocognitive heterogeneity of this disorder and to the precision of measurement of the neuropsychological tests employed. We also discuss empirical strategies that may be necessary to allow such research to progress prior to full resolution of the pathophysiological basis of ADHD.
BACKGROUND: Behavioral genetic studies provide strong evidence that attention-deficit/hyperactivity disorder (ADHD) has a substantial genetic component. Yet, due to the complexity of the ADHD phenotype, questions remain as to the specific genes that contribute to this condition as well as the pathways from genes to behavior. Endophenotypes, or phenotypes that are more closely linked to the neurobiological substrate of a disorder, offer the potential to address these two issues simultaneously (Freedman, Adler, & Leonard, 1999). Thus far, potential endophenotypes for ADHD have not been systematically studied. METHOD: The current paper reviews evidence supporting the use of deficits on neurocognitive measures of executive functions for this purpose. RESULTS: Such deficits are a correlate of ADHD and show preliminary evidence of heritability and association with relevant candidate genes. Nonetheless, studies that have assessed the familial and genetic overlap of neurocognitive impairments with ADHD have yielded inconsistent results. CONCLUSIONS: In order for executive function deficits to be used as an endophenotype for ADHD, we recommend greater attention to the neurocognitive heterogeneity of this disorder and to the precision of measurement of the neuropsychological tests employed. We also discuss empirical strategies that may be necessary to allow such research to progress prior to full resolution of the pathophysiological basis of ADHD.
Authors: Viviana A Peskin; Anna Ordóñez; R Scott Mackin; Kevin Delucchi; Silvia Monge; James J McGough; Denise A Chavira; Monica Berrocal; Erika Cheung; Eduardo Fournier; Judith A Badner; Luis Diego Herrera; Carol A Mathews Journal: Am J Med Genet B Neuropsychiatr Genet Date: 2015-03-31 Impact factor: 3.568
Authors: Jazmin Camchong; Kara A Dyckman; Benjamin P Austin; Brett A Clementz; Jennifer E McDowell Journal: Biol Psychiatry Date: 2008-08-09 Impact factor: 13.382
Authors: A E Doyle; J Wozniak; T E Wilens; A Henin; L J Seidman; C Petty; R Fried; L M Gross; S V Faraone; J Biederman Journal: Psychol Med Date: 2008-12-11 Impact factor: 7.723
Authors: S H Kollins; A D Anastopoulos; A M Lachiewicz; D FitzGerald; E Morrissey-Kane; M E Garrett; S L Keatts; A E Ashley-Koch Journal: Am J Med Genet B Neuropsychiatr Genet Date: 2008-12-05 Impact factor: 3.568