BACKGROUND: Neuroimaging studies of attention-deficit/hyperactivity disorder (ADHD) have revealed structural abnormalities in the brains of affected individuals. One of the most replicated alterations is a significantly smaller corpus callosum (CC), for which conflicting reports exist with respect to the affected callosal segments. METHODS: We applied novel surface-based geometrical modeling methods to establish the presence, direction, and exact location of callosal alterations in ADHD at high spatial resolution. For this purpose, we calculated the thickness of the CC at 100 equidistant midsagittal points in an age-matched male sample of 19 individuals with ADHD and 19 typically developing control subjects. RESULTS: In close agreement with many prior observations, the CC was shown to be significantly thinner in ADHD subjects in anterior and, particularly, posterior callosal sections. Covarying for intelligence did not significantly alter the observed ADHD effects. However, group differences were no longer present in anterior sections when covarying for brain volume and after excluding ADHD subjects comorbid for oppositional defiant disorder. CONCLUSIONS: Decreased callosal thickness may be associated with fewer fibers or a decrease in the myelination of fibers connecting the parietal and prefrontal cortices. This might affect interhemispheric communication channels that are necessary to sustain attention or motor control, thus contributing to symptoms of hyperactivity and impulsivity, or inattention, observed in ADHD. Future studies are necessary to determine whether callosal abnormalities reflect maturational delays or persist into adulthood.
BACKGROUND: Neuroimaging studies of attention-deficit/hyperactivity disorder (ADHD) have revealed structural abnormalities in the brains of affected individuals. One of the most replicated alterations is a significantly smaller corpus callosum (CC), for which conflicting reports exist with respect to the affected callosal segments. METHODS: We applied novel surface-based geometrical modeling methods to establish the presence, direction, and exact location of callosal alterations in ADHD at high spatial resolution. For this purpose, we calculated the thickness of the CC at 100 equidistant midsagittal points in an age-matched male sample of 19 individuals with ADHD and 19 typically developing control subjects. RESULTS: In close agreement with many prior observations, the CC was shown to be significantly thinner in ADHD subjects in anterior and, particularly, posterior callosal sections. Covarying for intelligence did not significantly alter the observed ADHD effects. However, group differences were no longer present in anterior sections when covarying for brain volume and after excluding ADHD subjects comorbid for oppositional defiant disorder. CONCLUSIONS:Decreased callosal thickness may be associated with fewer fibers or a decrease in the myelination of fibers connecting the parietal and prefrontal cortices. This might affect interhemispheric communication channels that are necessary to sustain attention or motor control, thus contributing to symptoms of hyperactivity and impulsivity, or inattention, observed in ADHD. Future studies are necessary to determine whether callosal abnormalities reflect maturational delays or persist into adulthood.
Authors: Eileen Luders; Margherita Di Paola; Francesco Tomaiuolo; Paul M Thompson; Arthur W Toga; Stefano Vicari; Michael Petrides; Carlo Caltagirone Journal: Neuroreport Date: 2007-02-12 Impact factor: 1.837
Authors: J Buchmann; W Gierow; S Weber; J Hoeppner; T Klauer; M Wittstock; R Benecke; F Haessler; A Wolters Journal: Neurosci Lett Date: 2006-07-03 Impact factor: 3.046
Authors: F Tomaiuolo; M Scapin; M Di Paola; P Le Nezet; L Fadda; M Musicco; C Caltagirone; D L Collins Journal: Dement Geriatr Cogn Disord Date: 2006-11-24 Impact factor: 2.959
Authors: Mojtaba Zarei; Heidi Johansen-Berg; Steve Smith; Olga Ciccarelli; Alan J Thompson; Paul M Matthews Journal: J Anat Date: 2006-09 Impact factor: 2.610
Authors: Savvas Andronikou; Christelle Ackermann; Barbara Laughton; Mark Cotton; Nicollette Tomazos; Bruce Spottiswoode; Katya Mauff; John M Pettifor Journal: Childs Nerv Syst Date: 2014-05-23 Impact factor: 1.475
Authors: James R Connor; Padmavathi Ponnuru; Byeong-Yeul Lee; Gerald D Podskalny; Shoaib Alam; Richard P Allen; Christopher J Earley; Qing X Yang Journal: Sleep Med Date: 2011-05-12 Impact factor: 3.492
Authors: Joseph O'Neill; Mary J O'Connor; Victor Yee; Ronald Ly; Katherine Narr; Jeffrey R Alger; Jennifer G Levitt Journal: Birth Defects Res Date: 2019-01-29 Impact factor: 2.344
Authors: Savvas Andronikou; Christelle Ackermann; Barbara Laughton; Mark Cotton; Nicollette Tomazos; Bruce Spottiswoode; Katya Mauff; John M Pettifor Journal: Pediatr Radiol Date: 2015-01-27
Authors: Alan N Francis; Suraj S Mothi; Ian T Mathew; Neeraj Tandon; Brett Clementz; Godfrey D Pearlson; John A Sweeney; Carol A Tamminga; Matcheri S Keshavan Journal: Biol Psychiatry Date: 2016-01-12 Impact factor: 13.382
Authors: Steve W Wu; Donald L Gilbert; Nasrin Shahana; David A Huddleston; Stewart H Mostofsky Journal: Pediatr Neurol Date: 2012-09 Impact factor: 3.372