Posted on

Reusing and recycling autism data from brain tissue

Podcast: Play in new window | Download

Subscribe: RSS

In a new study in animal models, researchers demonstrate how genetic variability in key risk genes leads to different brain development patterns.  Studying the brains of people with autism is challenging, since there are fewer resources to study.  However, scientists get creative and collaborative and re-analyze datasets previously published to look at different research questions.  That’s what happened this week in a collaboration between Brown University and UCLA, showing that as the activity of genes which controls the synapse goes down, so do genes affecting mitochondrial function.  Another brain tissue study showed that the stress of the endoplasmic reticulum, which is associated with the mitochondria, may be elevated.  Not all research data can be re-purposed again, which is why it is so important to study the brains of people with autism.  If you would like to learn more, go to www.takesbrains.org/signup

 

https://www.ncbi.nlm.nih.gov/pubmed/29859039

https://www.ncbi.nlm.nih.gov/pubmed/29761862

https://www.ncbi.nlm.nih.gov/pubmed/29901787

https://www.ncbi.nlm.nih.gov/pubmed/29926239

Posted on

Here’s to understanding why people with autism have anxiety in adolescence

Podcast: Play in new window | Download

Subscribe: RSS

Using resources from the Autism BrainNet, researchers from UC Davis show specific brain changes in an area called the amygdala in autism.  The amygdala is associated with fear, emotion and anxiety in people with autism.  But because they can look at the brain directly,  the actual number of neurons in the amygdala can be counted not just in one individual, but in over 50 individuals across ages 2 to 50.  This remarkable study showed that too much activity in the amygdala early may lead to impaired function later on.  This could be caused by too many neurons which are present early on in life in people with ASD, and reflected by fewer neurons later on in life.  These difference can only be detected through looking directly at brain tissue.  To learn more, register for the Autism BrainNet at www.takesbrains.org/signup.

Here is a link to the paper:  http://www.pnas.org/content/early/2018/03/19/1801912115.long

Dr. Avino will be answering questions about this paper on a Q&A on April 9, 2018 – please register here:  https://register.gotowebinar.com/register/7051754498195523073

Posted on

Commonly used drugs that may help autism

Podcast: Play in new window | Download

Subscribe: RSS

Sometimes treatment targets come from the places you wouldn’t expect.  This week, three new studies on the biological and sometimes, behavioral, effects of three commonly used compounds used to treat high cholesterol, edema, and angina were studied in people with autism.  Instead of focusing on just the behavior however, these studies took the approach of examining them from the behavioral side, determining if there was a biological reason why these compounds should be helping people with autism.  This means autism research has turned a corner – it’s not just about behavioral improvements, but about how the drug is working in the brain.  Also, a fun study about social media in people with autism.  They don’t just use it like the rest of us, it actually makes people with autism happy.

Here are the studies included in this week’s podcast:

https://www.ncbi.nlm.nih.gov/pubmed/29485900

https://www.ncbi.nlm.nih.gov/pubmed/29484909

https://www.ncbi.nlm.nih.gov/pubmed/29484149

 

https://www.ncbi.nlm.nih.gov/pubmed/29483603

 

Posted on

Chromosome 15-apallooza

Podcast: Play in new window | Download

Subscribe: RSS

One of areas of genetic interest of autism is a region of chromosome 15.  Only about 3% of people with autism have the mutation, but 80% of those with the mutation have autism.  It is so important that people with duplications of this area have formed their own advocacy group called the Dup15 Alliance.  I was honored to attend their family an scientific meeting and give a summary of what scientists have learned about autism through studying this chromosome, how kids with this mutation and autism are similar and different from those with autism but not the mutation, how the families are managing life threatening seizures, what the gene does, what the brains look like, and how mutations of this chromosome do in fact interact with the environment.  Thank you to the scientists who study this area and the very brave, selfless and amazing parents who I talked to.

Posted on

Post zygotic mutations in autism: what you need to know

Podcast: Play in new window | Download

Subscribe: RSS

Yes, another type of mutation in autism was revealed this week.  Those that are evident after the sperm and egg meet to form the zygote but still very early, during embryonic development.  Because it occurs after the original zygote is formed, the mutation is not found in every cell or every region of the body, called post-zygotic.  A collaboration of three major genetic consortia studied and collaborated on these types of mutations and revealed that they consist of about 7.5% of all de novo mutations in people with autism.  They affect autism risk genes and selectively target brain regions associated with autism.  Learn more about what this means for family planning and cognitive ability in people with autism.

Posted on

A different type of autism?

Podcast: Play in new window | Download

Subscribe: RSS

Last week, investigators with the Autism Treatment Network published a long awaited study on the differences between the DSM IV and DSM5.    Other studies had relied on information on old pieces of paper to judge whether or not someone who met criteria under DSM IV would be now diagnosed with DSM5 criteria.  This study, on the other hand, used in person evaluations of over 400 individuals with autism.  PI from the Missouri site and lead author of a new study, Dr. Micah Mazurek was gracious enough to provide a summary of the findings in the podcast.  A quick preview:  they showed differences in the diagnosis in the group previously known as PDD-NOS.  Is this a new type of autism?  Their symptoms were less severe and they had normal IQ ability – do they have a subtype of autism or a new form of ADHD?  This study isn’t the first to suggest using different categories of symptoms of autism like DSM IV did, and indicates that the new criteria of the DSM  5 are more specific.  In addition, a 2 minute summary of all the great presentations at the Autism Society of America is given.  Totally insufficient to describe everything that went on, but it’s a start.

Posted on

The Young and the Deaf: the relevance to language development in autism

Podcast: Play in new window | Download

Subscribe: RSS

This week two important studies which examine early influences of language development are explored.  First, we are lucky that Dr. Aaron Shield from Miami University joined to explain why studying children who are deaf and have autism, as well as parents of deaf children, are important for understanding language development.  He explores how autism is different and the same in those who are and are not deaf.  Second, study of very early speech, even before language emerges, may help guide speech and language therapists about how they should be dividing their time in therapy in toddlers, especially those with a high probability of developing ASD.  Thank you to both Drs. Shield and Chenausky for sharing their findings with us!

Posted on

A 4th of July quickie on new data for treatment of autism symptoms

Podcast: Play in new window | Download

Subscribe: RSS

Happy 4th of July weekend.  This week’s podcast is devoted to the studies in the past few months focusing on autism treatments that didn’t make it into the regular weekly roundup.  They include data that shows promising results (peer networks and iPads) as well as those that didn’t do as well as hoped (social skills).  There were also some that showed that some therapies just don’t have any good studies to show definitively if they are helpful or not.  Take 8 minutes before the fireworks and listen to the latest on interventions of ASD.

Posted on

Brain tissue: what has it done for autism lately?

Podcast: Play in new window | Download

Subscribe: RSS

In order to ensure that researchers have enough brain tissue to understand autism spectrum disorders, the education and outreach campaign is being expanded past families to doctors and professionals that have access to tissue.  One of these groups is neuropathologists.  At their annual meeting this past week in Los Angeles, and entire afternoon was spent dedicated to autism and the features of autism in the brain.  A summary of the presentations is included in this podcast. Speakers emphasized that the way the brain works in childhood is not the same way it works in adulthood, and a study out of UCSD showed that the genes that are affected in children with autism are different than those in adults with autism.  The mechanisms of genes controlling the developing brain vs. those which affect ongoing maintenance are different.  This calls to make sure scientists understand all ages of people with autism, because as the brain changes, so do the needs of people with ASD.

Posted on

Memorial Day Memoriam: Isabelle Rapin

Podcast: Play in new window | Download

Subscribe: RSS

This week, autism lost a pioneer and advocate for autism research:  Isabelle Rapin, MD, a neurologist from New York’s Albert Einstein University.  The first part of the podcast is a brief summary of her accomplishments.  The second part is an study called “how to keep your child out of the hospital”, presenting a recent study which looked at risk factors for being an inpatient, rather than an outpatient.    These risk factors may not be able to be prevented, but hopefully through identification of what they are, situations might be managed to help those with autism and their families during a crisis situation.