Autism spectrum disorder can be described as a neurological disorder that manifests itself in the early years of a child’s development. This disorder in autistic patients causes the brain of a person with autism to not be able to function properly in terms of social behaviors and communication skills, and disturbs him to learn how to communicate and interact with others socially.
Researchers in the latest new research presented on May 7, 2021 stated that Brain Scans May Help Predict Autism in High-Risk Infants researchers say,
Brain imaging may be the best way to give parents an early warning. Some studies suggest that working with parents of infants may help them alter the course of their development.
Children with highly folded and curved brains in utero tend to show autism-linked behaviors at 18 months of age, according to unpublished results from a longitudinal brain-imaging study.
Researchers presented the findings virtually at the 2021 International Society for Autism Research annual meeting.
Heightened levels of maternal stress, depression and anxiety predict both structural and functional brain abnormalities in fetuses, according to previous studies by the same team, which is led by Catherine Limperopoulos, director of the Developing Brain Institute at Children’s National Hospital in Washington, D.C. The new results represent the first look at how such fetal brain differences relate to the children’s behavior as toddlers.
The researchers used magnetic resonance imaging (MRI) to scan the brains of 147 fetuses at 24 to 40 weeks of gestation. They measured a number of features, including the degree of folding in the brain’s convoluted outer layer, the depth of those folds and the curvature of the frontal lobe.
When the children were about 18 months old, their parents filled out three standardized questionnaires: the Modified Checklist for Autism in Toddlers (M-CHAT), which screens for early signs of autism, such as a lack of interest in others; the Infant Toddler Social Emotional Assessment (ITSEA), which measures social and emotional problems; and the Child Behavior Checklist (CBCL), which gauges behavioral concerns. Higher scores on each of the questionnaires indicate greater levels of autism-like behaviors.
Prenatal prediction:
Based on this research Children who received high scores on the three questionnaires tended to have had a more curved and wrinkled brain in utero. Increased cortical folding was associated with high scores on the ITSEA and CBCL, deeper folds with high scores on the M-CHAT and CBCL, and curvature of the frontal lobe with high scores on the M-CHAT and ITSEA.
But these relationships don’t indicate a definitive link between fetal brain structure and autism, Limperopoulos says. “There may be elements of [autism]; there may be elements of attention deficit and other social behavioral impairments as well,” she says. “That really remains to be determined.”
Limperopoulos and her team are using gold-standard tests of autism to evaluate the children, and they plan to continue to work with the same set of children as they grow and mature, to see just how powerfully fetal MRI can predict childhood outcomes.
“We’re very interested in following both the moms and the babies through preschool, school age and beyond,” she says. “As long as we can stay connected with them, we’re very interested in following their developmental trajectory.”
The work may one day help doctors identify babies most in need of early interventions, Limperopoulos says.
“If we can utilize the advanced MRI tools to identify infants that may be at risk for long-term neurobehavioral disorders,” she says, “we can target interventions even before symptoms begin to manifest.
Timely diagnosis of this disorder allows parents and carers to provide the most appropriate interventions and training. Also, these interventions equip the child with the skills they need in daily life.
Although the treatment process for this disorder is quite difficult, early detection of autism can be effective in improving a child’s performance.
Ref:
https://www.spectrumnews.org/news/
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5336143/
https://www.scientificamerican.com/article/brain-scans-may-forecast-autism-in-babies/
IMUTISM TEAM