BRAIN NETWORKS ASSOCIATED WITH INTELLECTUAL DEVELOPMENT IN AUTISTIC CHILDREN

Christine Wu Nordahl and Marjorie Solomon

12/21/2022


AUCD's network of Intellectual and Developmental Disability Research Centers (IDDRCs) consists of 16 Centers. Fifteen Centers currently receive funding from the Eunice Kennedy Shriver National Institute for Child Health and Human Development (NICHD). IDDRCs contribute to the development and implementation of evidence-based practices by evaluating the effectiveness of biological, biochemical, and behavioral interventions; developing assistive technologies; and advancing prenatal diagnosis and newborn screening.

Neuroimaging is an important tool for studying brain development in autistic individuals. In as little as 10 minutes, an MRI scan can provide a highly detailed picture of the brain that reveals many different aspects of brain structure and function. The main challenge with MRI scans is that those scanned must lie almost perfectly still in a small and very noisy space. Because of this, autistic individuals with intellectual disability are often excluded from MRI studies. This is a problem because about one third of autistic individuals have an intellectual disability (IQs < 70), and they are sorely under-represented in research studies. A 2016 survey of the National Database for Autism Research found that out of 47,400 participants with autism, only 11% had IQs less than 85 and <1% of these had neuroimaging data available.

Because of this, very little is known about how brain development differs between autistic individuals with and without intellectual disability. Identifying brain differences between these groups could be useful in helping us to better understand autism, in predicting outcomes and in guiding the selection of appropriate supports. The UC Davis MIND Institute Autism Phenome Project (APP) is a longitudinal study that that has been following a cohort of autistic children from 3 years of age through late adolescence (age 18). Importantly, we have developed strategies to collect MRI scans individuals at all levels of intellectual ability; 30% of the APP cohort is comprised of autistic children with intellectual disability. This enables us to investigate associations between their brain and intellectual development.

Building upon what we have learned from two behavioral studies about the paths of intellectual development, we recently evaluated brain networks associated with these trajectories. The behavioral work had identified three trajectory-based subgroups: one with IQs in the neurotypical range across childhood, a second with IQs in the intellectual disability range across childhood, and a third with IQs in the intellectual disability range in early childhood who made significant gains across childhood. By the time those in this third group were 8 years old, their IQs were no longer in the intellectual disability range. We called this group the ‘Changers.’

We investigated whether there were brain differences between the Changers and the group with persistent intellectual disability. Using MRI scans collected at 3 years of age, we investigated the frontoparietal and default mode networks -- two brain networks associated with intellectual functioning. We found that the frontoparietal network was associated with current IQ – that is, the groups with intellectual disability at age 3 (the Changers and individuals with intellectual disability) differed from the group with IQs in neurotypical in several regions of the frontal parietal network. In contrast, the default mode network differed between the Changers group and the other two groups, suggesting that this network may be involved in mechanisms related to improving intellectual function.

These findings provide initial clues about how the brain differs between autistic individuals with and without intellectual disability during early childhood and how these differences might predict  future intellectual ability. Furthermore, the findings might help to better identify those more likely to experience  persistent intellectually disability  and to develop interventions that help them.

MRIs can be challenging for autistic individuals with intellectual disability. The means less is know about their brain development. The Autism Phenonme Project at the UC Davis Mind Institute is a research study team developed techniques to collect MRI scans on individuals with all levels of intellection disability. The researches found 3 groups of kids. IQs in the average throughout childhood; IQs in the intellectual disability range throughout childhood; IQs in the intellectual disability range as toddles and the average range by 8. Researchers found a network that is different between those whose IQ changed over time and those whose IQ stayed the same over time. The study used MRIs to look at networks in the brain. Networks are parts of the brain that work together to do a job. Out of 47,400 autistic individuals in the National Database for Autism Research. Only 11% had an IQ less than 85. Less than 1% of those had brain scans. This research might help us predict patters of IQ change across childhood   and develop targeted interventions to help children with intellectual disability.   Lee, JK,, Cho, A.C.B, Andres, D.S. et al. Default mode and front parietal network associations with IQ development across childhood in autism. J Neurodevlopm Dicord 14, 51 (2022)