Posted on 05/16/2014 9:21:32 AM PDT by neverdem
MRI images from a neurotypical control (left) and an adult with complete agenesis of the corpus callosum (right). The corpus callosum is indicated in red, fading as the fibers enter the hemispheres in order to suggest that they continue on. The anterior commissure is indicated by light aqua. The image illustrates the dramatic lack of inter hemispheric connections in callosal agenesis. Credit: Lynn Paul/Caltech
(Medical Xpress)Building on their prior work, a team of neuroscientists at Caltech now report that rare patients who are missing connections between the left and right sides of their braina condition known as agenesis of the corpus callosum (AgCC)show a strikingly high incidence of autism. The study is the first to show a link between the two disorders.
The findings are reported in a paper published April 22, 2014, in the journal Brain.
The corpus callosum is the largest connection in the human brain, connecting the left and right brain hemispheres via about 200 million fibers. In very rare cases it is surgically cut to treat epilepsycausing the famous "split-brain" syndrome, for whose discovery the late Caltech professor Roger Sperry received the Nobel Prize. People with AgCC are like split-brain patients in that they are missing their corpus callosumexcept they are born this way. In spite of this significant brain malformation, many of these individuals are relatively high-functioning individuals, with jobs and families, but they tend to have difficulty interacting with other people, among other symptoms such as memory deficits and developmental delays. These difficulties in social behavior bear a strong resemblance to those faced by high-functioning people with autism spectrum disorder.
"We and others had noted this resemblance between AgCC and autism before," explains Lynn Paul, lead author of the study and a lecturer in psychology at Caltech. But no one had directly compared the two groups of patients. This was a challenge that the Caltech team was uniquely positioned to do, she says, since it had studied patients from both groups over the years and had tested them on the same tasks.
"When we made detailed comparisons, we found that about a third of people with AgCC would meet diagnostic criteria for an autism spectrum disorder in terms of their current symptoms," says Paul, who was the founding president of the National Organization for Disorders of the Corpus Callosum.
The research was done in the laboratory of Ralph Adolphs, Bren Professor of Psychology and Neuroscience and professor of biology at Caltech and a coauthor of the study. The team looked at a range of different tasks performed by both sets of patients. Some of the exercises that involved certain social behaviors were videotaped and analyzed by the researchers to assess for autism. The team also gave the individuals questionnaires to fill out that measured factors like intelligence and social functioning.
"Comparing different clinical groups on exactly the same tasks within the same lab is very rare, and it took us about a decade to accrue all of the data," Adolphs notes.
One important difference between the two sets of patients did emerge in the comparison. People with autism spectrum disorder showed autism-like behaviors in infancy and early childhood, but the same type of behaviors did not seem to emerge in individuals with AgCC until later in childhood or the teen years.
"Around ages 9 through 12, a normally formed corpus callosum goes through a developmental 'growth spurt' which contributes to rapid advances in social skills and abstract thinking during those years," notes Paul. "Because they don't have a corpus callosum, teens with AgCC become more socially awkward at the age when social skills are most important."
According to Adolphs, it is important to note that AgCC can now be diagnosed before a baby is born, using high-resolution ultrasound imaging during pregnancy. This latest development also opens the door for some exciting future directions in research.
"If we can identify people with AgCC already before birth, we should be in a much better position to provide interventions like social skills training before problems arise," Paul points out. "And of course from a research perspective it would be tremendously valuable to begin studying such individuals early in life, since we still know so little both about autism and about AgCC."
For example, the team would like to discern at what age subtle difficulties first appear in AgCC individuals, and at what point they start looking similar to autism, as well as what happens in the brain during these changes.
"If we could follow a baby with AgCC as it grows up, and visualize its brain with MRI each year, we would gain such a wealth of knowledge," Adolphs says.
The Brain paper, "Agenesis of the Corpus Callosum and Autism: A Comprehensive Comparison," also includes as coauthors Daniel Kennedy, assistant professor of psychology at Indiana University, and Christina Corsello, a member of the research staff at Rady Children's HospitalSan Diego. The research was funded by the Simons Foundation, Autism Speaks, and the Brain and Behavior Research Foundation.
Explore further: Diagnosing and treating autism
More information: Lynn K. Paul, Christina Corsello, Daniel P. Kennedy, and Ralph Adolphs. "Agenesis of the corpus callosum and autism: a comprehensive comparison." Brain, first published online April 25, 2014 DOI: 10.1093/brain/awu070
Kudos for a great find.
The left brain knoweth not what the right brain doth....
Ping
Thanks for posting.
I think it could be something in the environment that affects this development, ie flouride levels, Phyto-estrogens, or some other thing that we have been increasing in the last 50 years....
I wonder if anyone has looked into the effects of ultra sound. Expenctant mothers get many ultrasounds.
Thanks, but neurology was was a particular interest to me for many decades.
I wonder if anyone has looked into the effects of ultra sound. Expenctant mothers get many ultrasounds.
Sound waves tend to resonate in cavities, could be there is a resonance effect in the skull of the unborn baby that heats up and destroys the cells of the corpus collosum....’
Resonance usually occurs inthe midde of such cavities, and guess where the corpus callosum is located...
Else why would Autism, relatively rare 50 years ago, been skyrocketing year after year?
They are determined to make it a 'born with' problem rahter than address the real cause. (How do thousands of children who have been perfectly normal then suddenly go into autism after being attacked with multi-shots, fit into this 'born with' criteria?)
Big pharma and their pocket-politicians must not lose their cash cow.
marijuana perhaps?
Yes...I believe it COULD have something to do with the multitude of vacs in a condensed time period.
Interesting. My daughter has a brain injury. She got much more socially awkward around 9-12.
She’s different, but not like autistic kids.
I kind of think between normal and autistic.
What difference does it make? Obamacare won’t pay for most treatment anyway. One will have to be independently wealthy to afford medical care in the Obamanation’s brave new world.
I have often worried about my corpus callosum and those of my loved ones
Start running the libtards through to see what we see.
To this statement in the article: “One important difference between the two sets of patients did emerge in the comparison. People with autism spectrum disorder showed autism-like behaviors in infancy and early childhood, but the same type of behaviors did not seem to emerge in individuals with AgCC until later in childhood or the teen years” - I would say:
This is what I would have predicted - no early symptoms, showing up later, the timing leads away from the more common cause of vaccination-induced or pitocin-induced causation. The genetic issue is probably toxin-related, but causes literal brain structure changes during brain formation that don’t come into play (because of structural deficiency) until the age-related issue kicks in. The other offenders are late-comers and affect brain development from THAT point forward (neonatal).
Please see (online) June 1991 British Lancet article based on four-hospital study out of Japan, cited in Bernard Rimland’s newsletter of that era for implications of synthetic oxytocin in overmanaged labor and delivery phase of fetal life.
-Parent of adult autistic
There is a condition called PANS or PANDA, that starts after exposure to the strep bacteria, that mimics autism, and can strike older children.
aahahah - It's called being between 9-12 for girls = normal. Neither fish nor fowl - the in=between, awkward years.
You'll both survive :)
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