Why is it so hard to look them in the eye?

There is an ongoing debate about why people with autism avoid eye contact.  There is data to support both, but as this behavior emerges very early, it’s important to look at data from preverbal children to understand the origins of changes in eye contact.  Many scientists also feel that avoiding eye contact snowballs over the lifespan and deprives people with autism from developing social skills.  Infants don’t even know why they avoid eye contact so at the Marcus Autism Center in Atlanta, researchers are using eye tracking technology to answer this question.  The findings have clear implications for early intervention strategies.

Another gene that causes autism and what families are doing about it

A gene that controls electrical activity in the brain, SCN2A, has been linked to autism for awhile.  But recently, a new study from China shows that mutations of this gene are seen in about 1% of people with autism.  This may put it into the category of the rare mutations that have a major contribution to autism symptoms.   In addition to autism, mutations of these gene are associated with seizures and epilepsy.  Because of the relatively high rates of mutations of this gene in autism and epilepsy, an amazing group of motivated families formed an organization to help support and awareness for this gene mutation.  This week’s podcast includes a message from one of the leaders of this foundation:  FamileSCN2A who are dedicated to help their children with the knowledge about their child’s genetic makeup.

Brain signals improve the efficacy of behavioral interventions

Biomarkers can help distinguish different types of features but this week they were used to predict who would respond to Pivotal Response Training, or PRT.  Researchers, led by Pam Ventral at Yale looked at how the brain responded to a social or non social situation as well as baseline features on standardized measures.  Remarkably, these brain signatures were better at standard behavioral assessments at determining who would respond most positively to PRT.  This study has enormous implications for personalized medicine approach and demonstrates how early studies in biomarkers many years ago have paid off for those with autism.

The potential role of epigenetics in the sex differences in autism

On Tuesday November 15th, Tracy Bale from University of Pennsylvania provided an insightful analysis of sex differences in behavioral, physiological and molecular outcomes following prenatal stress.  She outlined the potential epigenetic markers that may lead to resilience in female offspring which has direct implications for autism.  However, prior to Dr. Bale’s presentation, Donna Werling from UCSF briefly outlined the genetic and behavioral data so far about females with autism and why there is a 4:1 ratio in males to females getting a diagnosis.  This webinar is part of the Environmental Epigenetics of Autism Webinar Series co-organized by Autism Science Foundation, Autism Speaks and the Escher Family Fund for Autism.

What the Trump presidency could mean for autism families

On early Wednesday morning, the United States woke up to the news that the new president was Donald Trump.  While he hasn’t taken office yet, this podcast reviews his statement on his website or in his Contract with America, as well as thing  published or stated by him or his campaign on his website or in an interview.  The following are covered:  health coverage, Medicaid, mental health services, science and the environment, and education.   The focus is now the proposed changes and policies could affect families with autism.  There is also a special message at the end from David Mandell about how families can deal with the changes ahead.  A transcript of the podcast is available here.

Precision medicine presents: OXYTOCIN!!!

Overall, the scientific research examining the efficacy of oxytocin treatment in autism spectrum disorder has been mixed.  On a previous podcast, studies in the way the oxytocin receptor was turned on and off were explained which may account for variability in treatment response.  This week, two studies in Japan show that specific mutations in the oxytocin receptor product predict who will respond to oxytocin treatment and who will not.  Therefore, the oxytocin story is one of the first examples of using genetic findings to push better treatment on an individual level, otherwise known as precision medicine.

A scary halloween story about the media misrepresenting science

How long do you have to study an intervention to see if it works?  Many scientists agree that it isn’t just about what happens in the short run, but if those interventions can be sustained for long periods of time.  In the case of very early interventions, it is now clear that treatment for about a year can change the trajectory of symptoms so those improvements are sustained, maintained or lead to even further improvements for 6 years after the initial intervention has stopped.  This important finding was hidden by the BBC getting the headline wrong and hiding the true value of the research at the end of the story.  This week’s podcast outlines the contribution of parent-implemented intervention and research studying autism even before symptoms emerge in improving trajectories rather than just immediate outcomes.  Happy Halloween!

Autism diagnosis in adulthood

While still rare, there are cases where an autism diagnosis is not made until adulthood.  Why have these people been missed and what do they need?  How did they go for so long without anyone recognizing that they needed help?  A new study from the lab of Dr. Francesca Happe in the UK investigates the characteristics and features of people who were referred for a diagnosis after 18 years of age.  Hear more about how they managed in this week’s podcast.

Unfortunate new risk discovered for people with autism and their siblings

In addition to risks of anxiety, ADHD, mood disorders and other psychiatric issues, people with autism (and their siblings) show increased risk of substance abuse issues.  This information comes from a large scandanavian registry study that included over 26,000 individuals with ASD.  On this week’s podcast I discuss what this means for people with autism and their family members.

Autism and Epilepsy – a brain tissue perspective

On October 14th, the Autism BrainNet hosted it’s first webinar around how brain tissue findings affect people with autism.  First, Shafali Jeste, MD, from UCLA explained what seizures were, how prevalent they were in people with autism, and what the risk factors for them were in ASD.  Next, David Menassa from Oxford University described recent findings in brain tissue which showed how glia cells, or the cells of the brain that support neurons, are affected in ASD and how epilepsy affects these changes.  The introduction of the webinar is missing but only for a few seconds.   Thank you to Drs. Jeste and Menassa for participating in such a great informational event and for everyone that registered.