fMRI Shows Link Between Reading To Young Children And Brain Activity
New evidence that reading to young children is in fact associated with differences in brain activity supporting early reading skills was presented at the Pediatric Academic Societies (PAS) 2015 annual meeting.
Parents receive the advice to read to their babies early and often. The hope is that sharing books together will help children’s language development and eventually, turn them into successful readers.
“We are excited to show, for the first time, that reading exposure during the critical stage of development prior to kindergarten seems to have a meaningful, measurable impact on how a child’s brain processes stories and may help predict reading success,” said study author John Hutton, MD, Cincinnati Children’s Hospital Medical Center. “Of particular importance are brain areas supporting mental imagery, helping the child ‘see the story’ beyond the pictures, affirming the invaluable role of imagination.”
Professional organizations and advocacy groups have encouraged parents to read to their children from birth in order to foster early learning and create connections in the brain that promote language development. Direct evidence of effects on the brain, however, were not previously available.
Measuring Cognitive Stimulation
To show whether reading to preschoolers affects brain networks that support reading skills, Dr. Hutton and his colleagues studied 19 healthy preschoolers ages 3-5 years old, 37 percent of whom were from low-income households.
Each child’s primary caregiver completed a questionnaire designed to measure cognitive stimulation in the home. The questionnaire looked at three areas: parent-child reading, including access to books, frequency of reading and variety of books read; parent-child interaction, including talking and playing; and whether parents taught specific skills such as counting and shapes.
The children then underwent functional magnetic resonance imaging (fMRI), which measured brain activity while they were listening to age-appropriate stories via headphones. The children were awake and non-sedated during fMRI, and there was no visual stimulus.
Researchers were interested in whether there would be differences in brain activation supporting comprehension of the stories in areas known to be involved with language.
Mental Imagery Activation
Results showed that greater home reading exposure was strongly associated with activation of specific brain areas supporting semantic processing (the extraction of meaning from language). These areas, the left-sided posterior association cortex involved with imagery and multi-modal semantic processing, are critical for oral language and later for reading.
Brain areas supporting mental imagery showed particularly strong activation, suggesting that visualization plays a key role in narrative comprehension and reading readiness, allowing children to “see” the story.
“This becomes increasingly important as children advance from books with pictures to books without them, where they must imagine what is going on in the text,” Dr. Hutton said.
The associations between home reading exposure and brain activity remained robust after controlling for household income.
“We hope that this work will guide further research on shared reading and the developing brain to help improve interventions and identify children at risk for difficulties as early as possible, increasing the chances that they will be successful in the wonderful world of books,” Dr. Hutton concluded.