There is a biological pathway for
the development of autism. Perhaps now
we can quit blaming the parents as happened in the past. This is the most hopeful information I have
seen yet on this disease and it is a clear route to both intervention as we presently
know it, but also a research window allowing us to target the affected pathway.
Even better, chances are that we
are looking at a pathway to an outright cure of this disease. It is now there in front of us.
I hope we see quick results from
this insight.
Brain Differences Found at 6 Months in Infants Who Develop Autism
ScienceDaily (Feb. 17, 2012) — A new study from the Infant Brain
Imaging Network, which includes researchers at the Center for Autism Research
at The Children's Hospital of Philadelphia (CHOP), found significant
differences in brain development starting at age 6 months in high-risk infants
who later develop autism, compared to high-risk infants who did not develop
autism.
"It's a tremendously exciting finding," said Sarah Paterson,
PhD, director of the Infant Neuroimaging Lab at CHOP's Center for Autism
Research. "We found that the brains of the children who developed
autism were markedly different even prior to the onset of behavioral
symptoms of autism. Thus, our findings, while requiring replication, are a very
important first step towards identifying a biomarker for autism risk. This
would enable specialists to diagnose autism much earlier than what is currently
possible through behavioral observations."
The study also suggests that autism does not appear suddenly in young
children but instead develops over time during infancy, note the authors.
Intensive early intervention has been shown to improve outcomes in children
with developmental delays and autism.
"This research raises the possibility that we might be able to
intervene even before a child is 6 months old, to blunt or prevent the development
of some autism symptoms," said Paterson
The study was published February 17th in the American Journal of
Psychiatry. Its results are the latest from the ongoing Infant Brain Imaging
Study (IBIS), which is led at CHOP by Dr. Paterson and Robert Schultz, PhD, who
are co-authors on this study.
Participants in the study were 92 infants considered to be at high risk
for ASD, because they all have older siblings with autism. Each infant had
diffusion tensor imaging (DTI) -- a type of magnetic resonance imaging (MRI) --
at 6 months and behavioral assessments at 24 months. Most of the children also
had additional brain imaging scans at either or both 12 and 24 months.
At 24 months, 28 infants (30 percent) met criteria for ASDs while 64
infants (70 percent) did not. The two groups differed in white matter fiber
tract development -- pathways that connect brain regions -- as measured by
fractional anisotropy (FA). FA measures white matter organization and
development, based on the movement of water molecules through brain tissue.
This study examined 15 separate fiber tracts, and found significant
differences in FA growth trajectories in 12 of the 15 tracts between infants
who did develop autism versus infants who did not. Infants who later developed
autism had elevated FA at six months but then experienced slower development
over time. By 24 months of age, infants with autism had lower FA values than
infants without autism.
The findings come on the heels of a recent study from London published
in Current Biology, which found that infants at high risk for autism who were
later diagnosed with the condition showed different brain responses from
low-risk babies, or from high-risk babies that did not develop autism when
shown images of faces looking at or away from the baby. Paterson said that the
two findings strengthen one another and are encouraging evidence that
scientists are on the right track towards finding markers for identifying
autism much earlier than is currently possible.
In addition to the Center for Autism Research at CHOP, other
institutions that took part in the study include The University of North
Carolina, University of Utah, Washington University in St. Louis, University of
Washington, McGill University, and the University of Alberta.
In addition to funding from the NIH, the IBIS Network receives support
from Autism Speaks and the Simons Foundation Autism Research Initiative.
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