A new language-skills study that included infants later diagnosed with autism suggests that all children can benefit from exposure to more speech from their caregivers.

Dr. Meghan Swanson

Dr. Meghan Swanson, assistant professor at The University of Texas at Dallas, is the corresponding author of the study, published online June 28 in Autism Research. It is the first to extend research about the relationship between caregiver speech and infant language development from typically developing children to those with autism. The findings could inform guidelines for earlier action in cases of developmental difficulties.

“You can diagnose autism at 24 months at the earliest; most people are diagnosed much later. Early intervention, from birth to age 3, has shown to be effective at supporting development in various cohorts of children,” said Swanson, who joined the School of Behavioral and Brain Sciences in January as the director of the Infant Neurodevelopment & Language Research Lab, known as the Baby Brain Lab.

She said there has been a push to identify autism earlier or demonstrate that the same techniques that help most children develop language skills also benefit those eventually diagnosed with autism.

The study involved 96 babies, 60 of whom had an older sibling with autism. Swanson said that this “baby-sibling” research design was necessary.

“How do you study autism in infancy when you can’t diagnose it until the kids are age 2 at least?” she asked. “The answer relies on the fact that autism tends to run in families. These younger siblings have about a 20% chance of being diagnosed eventually with autism.”

Indeed, 14 children from the high-risk subset of 60 were diagnosed with autism at 24 months.

The study results directly tied the number of words an infant hears, as well as the conversational turns he or she takes, to the performance on the 24-month language evaluation — both for typical children and those with autism.

The Baby Brain Lab

The Infant Neurodevelopment & Language Research Lab at UT Dallas studies cognitive neuroscience in the early development of typically developing children and children with autism spectrum disorder. Researchers investigate the neurobiology of early language skills and how communication between infants and their parents affects brain development and later language and cognitive skills. Learn more about the team and its work.

“One conclusion we’ve come to is that parents should be persistent in talking with their babies even if they aren’t getting responses,” Swanson said.

Swanson emphasized how important large, longitudinal studies — tracking the same individuals across an extended period — like this one are in her field.

“You have to follow the same children for years to learn anything conclusive about development,” she said. “You can’t simply shift from a group of 2-year-olds to a different group of 3-year-olds and so on.”

Correcting the misunderstanding of parents’ influence in autism has been a gradual fight against outdated conceptions, Swanson said.

“When parents receive an autism diagnosis for a child, some might wonder, ‘What could I have done differently?’” she said. “There is no scientific backing for them to think in these terms. But there is a dark history in autism where parents were wrongly blamed, which reinforced these thoughts. To do research involving mothers as we have, you must approach that topic with sensitivity but also firmly reinforce that the logic that parenting style can cause autism is flawed.”

The children’s interactions with caregivers were recorded over two days — once at nine months and again at 15 months — via a LENA (Language Environment Analysis) audio recorder. The children’s language skills were then assessed at 24 months.

“The LENA software counts conversational turns anytime an adult vocalizes and the infant responds, or vice versa,” Swanson said. “The definition is not related to the content of the speech, just that the conversation partner responds. We believe that responding to infants when they talk supports infant development, regardless of eventual autism diagnosis.”

“Parents can be amazing agents of change in their infants’ lives from as early as 9 months old. If we teach parents how to provide their children with a rich communication environment, it helps support their children’s development.”

Dr. Meghan Swanson, assistant professor in the School of Behavioral and Brain Sciences

The project was undertaken by the Infant Brain Imaging Study (IBIS) network, a consortium of eight universities in the United States and Canada funded by the National Institutes of Health as an Autism Center of Excellence. Before joining UT Dallas, Swanson was a postdoctoral fellow at the University of North Carolina at Chapel Hill, one of IBIS’ study sites. The other study sites are Children’s Hospital of Philadelphia, Washington University in St. Louis, the University of Washington in Seattle and the University of Minnesota Twin Cities campus.

Dr. Joseph Piven, the IBIS network’s principal investigator, is the director of the Carolina Institute for Developmental Disabilities at UNC-Chapel Hill. For parents, the results should highlight the long-term effect of initiating conversations from an early age, he said.

“Talking to your kids makes a big difference,” Piven said. “Any impact on early language skills will almost certainly have an impact on a wide range of later abilities in school-age children and significantly enhance their probability of success.”

Swanson said the most important takeaway from this work is that parents can make a significant difference in language development, even in children who are eventually diagnosed with autism.

“Parents can be amazing agents of change in their infants’ lives from as early as 9 months old,” she said. “If we teach parents how to provide their children with a rich communication environment, it helps support their children’s development. I find that incredibly hopeful — the power that parents have to be these positive role models.”

In addition to UT Dallas and the IBIS study sites, researchers from Temple University, Perelman School of Medicine at the University of Pennsylvania, McGill University and the University of Alberta contributed to this study. The Simons Foundation also supported the research.