Similarities in brain impairments in children with autism spectrum disorder, attention deficit hyperactivity disorder (ADHD) and obsessive compulsive disorder (OCD) have been discovered by a team of Toronto scientists.
The team conducted a study involving brain imaging of white matter in 200 children with autism, ADHD, and OCD, or no diagnosis. White matter is made up of bundles of nerve fibers that connect cell bodies across the brain, and enable communication between different brain regions.
“We found impairments in white matter in the main tract connecting the right and left hemispheres of the brain in children with either autism, ADHD or OCD, when compared to healthy children in the control group,”
says Dr. Stephanie Ameis, first author on the study and clinician-scientist at the Centre for Addiction and Mental Health’s (CAMH’s) Campbell Family Mental Health Research Institute. This particular white matter tract, the corpus callosum, is the largest in the brain and among the first to develop.
The research team, from CAMH, the Hospital for Sick Children and Holland Bloorview Kids Rehabilitation Hospital, also found children with autism and ADHD showed more severe impairments affecting more of the brain’s white matter than those with OCD. This finding may reflect the fact that both autism and ADHD typically have an onset at a much younger age than OCD, and at a time when a number of different white matter tracts are going through rapid development, says Dr. Ameis.
Autism, ADHD and OCD have common symptoms and are linked by some of the same genes. Yet historically they have been studied as separate disorders. Together, these three neurodevelopmental disorders affect roughly 15 per cent of children and youth.
Autism, ADHD, And OCD Mind-behavior Connection
Many of the behaviors that contribute to impairment in autism, ADHD, and OCD, such as attention problems or social difficulties, occur across these conditions, and differ in severity from person to person. The researchers found that the brain’s white matter structure was associated with a spectrum of behavioral symptoms present across these diagnoses.
Children with greater brain impairment also had higher impairments in functioning in daily life, regardless of their diagnosis, said Dr. Ameis, who is also appointed at the Hospital for Sick Children.
This finding has implications for our understanding of the nature of brain-related disorders, notes senior author Dr. Evdokia Anagnostou of Holland Bloorview Rehabilitation Hospital and head of the POND Network. By providing biological evidence that brain structure relates to a spectrum of behavioural symptoms that cut across different developmental conditions, it highlights the shared biology among such conditions.
And it points to the potential that treatments targeting a spectrum of behaviors may be relevant for all three conditions.