#2Physical Evidence that Autism Starts During Prenatal Development Researchers found a common pattern of disruption in the prenatal brain development of children who had autism. Their study, supported in part by Autism Speaks, analyzed the donated post-mortem brain tissue of 11 children with autism and of 11 unaffected children. In 10 out of the 11 ASD cases, they found recurring patches of abnormal development in layers of the cerebral cortex that form during prenatal development. By contrast, they found these patches in just 1 of the 11 children unaffected by autism. The researchers propose that early intervention may help the brain "rewire" around these disturbed areas.
#3MSSNG: Changing the Future of Autism with Open Science This historic collaboration between Autism Speaks and Google is queueing up 10,000 anonymous autism genomes and making the data freely available for research anywhere, anytime. “We don’t know enough about autism. MSSNG is the search for the missing answers.”
#4Broccoli-Sprout Extract Shows Promise for Easing Autism Symptoms In a small placebo-controlled trial, sulforaphane supplements eased autism symptoms in nearly half of 29 participants affected by autism. Experts called the results “promising” but cautioned that larger studies were needed to determine effectiveness and safety.
#5Studies Implicate Early Injury to Cerebellum as Major Cause of Autism In a review of published studies, Princeton researchers said they found strong evidence that injury to the cerebellum during pregnancy or birth may be the leading nongenetic cause of autism. A small but crucial brain region, the cerebellum sits near the base of the skull and is best known for coordinating movement. During brain development, it plays a crucial role in directing cross wiring to other brain regions.
#6Brain Study Suggests that Autism Involves Too Many Synapses Researchers analyzing donated postmortem tissue from children affected by autism found that their brains had a significant surplus of connections between brain cells. These excess synapses appeared to result from a slowdown in the normal pruning process that occurs during brain development. The investigators then used a mouse model of autism to show that they could restore normal synaptic pruning and reduce autism-like behaviors with an experimental medication. They called for further research that might advance to a clinical trial involving people with autism.
#7Study Links Specific Gene to Autism Subtype Researchers linked a specific gene mutation to a newly identified subtype of autism. Experts hailed the finding as a crucial step toward using genomic testing to develop individualized treatments for autism spectrum disorder.
#8Autism's Subtle Early Signs: More Findings from Infant Eye Tracking Another Autism Speaks “Baby Sibs” study found that even earlier differences in social attention – this time at 6 months – flag high risk for autism. The researchers called for the development and testing of very early interventions that engage at-risk babies in enjoyable activities that involve shared attention.
#9Autism ‘Baby Sibs’ Study Identifies Another Early Red Flag Researchers with the Autism Speaks Baby Sibling Research Consortium used eye-tracking technology to discover that babies who begin showing decreased interest in facial expressions at 8 months go on to develop more-severe autism symptoms by age 3. The authors expressed hope that this early red flag signaled an important window of opportunity for early intervention that improves outcomes.
#10Autism and GI Disorders: Largest-Ever Analysis Confirms Strong Link The first meta-analysis of all peer-reviewed research on autism and gastrointestinal conditions showed that children with autism have four times the rate of GI problems as do other children. At the forefront of this research, Autism Speaks launched an unprecedented initiative funding major investigations into autism’s gut-brain connect