Posts Tagged ‘Biological Psychiatry’
Erin Allday of the San Francisco Chronicle filed an article this weekend reporting a Stanford University research project suggesting autistic children have a distinctive topography within their brains, based on data obtained from brain scans of 24 autistic children between ages 8 and 18 when compared to scans of 24 non-autistic children. Unlike previous studies that analyzed the overall volume of the brain, where it was found that autistic children generally have larger than average brains, but the information wasn’t refined enough to be useful in diagnosing or treating the disorder, the Stanford study sectioned brain scans into tiny cubes and compared the size and structure through computer analysis. What they found was a pattern of organization in regions of the brain affecting communication and self-awareness particular to autistic children (communication and awareness are hallmark facets that autism affects).
The brain maps applied to 80 to 90 percent of autistic children, and the research pinpoints a potential bio-marker should the maps be replicated in a larger group of children. While the research is years away from application in the real world, coupled with questions about the method’s validity in screening children, the goal is providing refined treatments and clearer understanding of autism’s impact on a vital organ. The research was published online in the journal Biological Psychiatry.
Numerous studies and endless research attempts to find a biological indicator for autism spectrum disorder will continue as long as the cause of the condition remains unknown. On this blog, I’ve covered urine tests and studies on genetic proteins as potential signs to determine whether or not a person fits the autism spectrum. The explorations of so many subjects aren’t all that different from “old wife’s tales” of treating various conditions. When there’s a lack of concrete indicators for a disorder or disease, researchers task themselves to discovering at least one answer. Throughout the quest, numerous possibilities and theories emerge until further research either eliminates them or creates new support to continue investigating a certain topic. Unfortunately, the process is agonizingly long and often ignored by a mainstream audience thirsting for instant gratification, and that’s one reason why stories I cover on biological research often mentions such studies are years away from widespread relevance.
Another reason? Small sample sizes. In order to determine whether a theory is potentially correct or not while avoiding over-exerting resources, autism studies will generally use a localized test group that rarely breaks four figures. This story is one example of how quickly patterns and similarities can be found among people with a particular condition, and that itself is progress compared to scientific observations of autism 20 years ago.
Allday goes through the usual angles in covering this story, explaining autism’s rapid growth while a solution to finding the cause continues. I’ve mentioned before that stories on studies are difficult to provide detailed information because what is published is usually an early step of testing a hypothesis. Allday tempers any reader who may spout that a bio-sign was found by uncovering the unknown usefulness of the research itself. Stories like hers will continue to be published to newspapers as a “mainstream translation” of what is disseminated by journals, even though answers lie far beyond. However, when a biological cause is found, reporters will hopefully have at least one story of their own to reference.