Mysteries of the Microbiome

In the first of a two-part series on digestive health in ASD, Mia Kotikovski summarizes scientific information about what the complicated microbiome is, how it influences physical and psychiatric health, if it is altered in autism, and what causes it to be different in ASD.

Missed the Meeting on Language in Autism? Listen to this podcast

Last week in North Carolina, the Meeting on Language in Autism was held, with 3 days of amazing presentations and lots of productive discussions about how language and speech develops and how people with autism communicate. This podcast describes the origins of language development and how intervention during toddlerhood can promote lifelong language abilities. To learn more about the meeting go to www.mola.org and to see the Autism Navigator, go to www.autismnavigator.org.

The ASF Year End Review of Science

Just three days before 2024, ASF provides a summary of the the highlights of scientific discoveries and how they have translated into tools families can use. They include ways to speed up diagnosis and reduce waitlists, study of the brains in females and clinical recommendations for helping autistic females at birth, evidence of better practices around intervention and supports, and a review of the numbers of people who have a diagnosis. It isn’t comprehensive and if something was missed, our apologies, but the summary is 20 minutes.

You can read the text here: https://autismsciencefoundation.org/2023-year-end-review/

The Meaning of Microglia

We normally focus on the function of brain cells that send signals to eachother and communicate across small or long distances, which show differences in ASD. However, we rarely pay attention to the other cells in the brain. One type of cell, called the microglia, has been shown to not only help “pick up the garbage” of the brain, but also shape these connections that occur between brain cells. This week @DavidMenassa1 from @QueensCollegeOx, @UniofOxford, @unisouthampton published a paper in @Dev_Cell that looks at how microglia shape the brain during critical periods of development, and what this means for ASD. We are grateful he shares his expertise (and a beautiful accent) with us this week.

Check out the paper HERE:

https://www.cell.com/developmental-cell/fulltext/S1534-5807(22)00546-9?_returnURL=https%3A%2F%2Flinkinghub.elsevier.com%2Fretrieve%2Fpii%2FS1534580722005469%3Fshowall%3Dtrue 

From being high to being aggressive

There are many many potential factors that influence a diagnosis of ASD that have been underexplored, and recreational drugs are one of them. Of course it would never explain all the cases of ASD, not one singular thing does, but does cannabis consumption during pregnancy lead to an increased probability of having a child with ASD? As it turns out, yes, a small increase, meaning it isn’t the only thing causing ASD but: JUST SAY NO if you are pregnant. On the other end of the spectrum is aggression, a completely horrible feature of some people with ASD. About 30% of people who are aggressive and have an ASD diagnosis are not responsive to any medications or therapies, which is horrifying. Researchers in Canada and Brazil have studied the brains of this group, with what is called “refractory aggression” to try to get to the mechanism.

https://pubmed.ncbi.nlm.nih.gov/32778828/

https://pubmed.ncbi.nlm.nih.gov/32762791/

Understanding the brains of people with autism with Daniel Geschwind, MD, PhD

This week’s ASF podcast is a special treat – Dr. Daniel Geschwind from UCLA provides an understanding of the brains of people with autism, focusing on those with a mutation in chromosome 15.  He goes over how they are similar and different (teaser: they are more similar) and answers questions from families about how this research is important for helping improve the lives of people across the spectrum.

Guys, we all need exercise

People with autism are less likely to be physically active and more likely to be sedentary.    A number of studies have looked into different physical activities, both group based and individually, on improvements in health as well as core features of autism, and most have had positive results.  New animal model research demonstrates a benefit of exercise using the maternal immune activation model of ASD, pruning back the excess of connections and cell fibers.  As people with autism also have too many connections in the brain, this may have a direct therapeutic benefit.  But besides all the scientific conjecture, we all need more exercise, physical activity interventions seem to only help, not hurt, people across the spectrum, and should be used to complement, not replace existing therapies.

 

 

https://www.ncbi.nlm.nih.gov/pubmed/29693781

 

https://www.ncbi.nlm.nih.gov/pubmed/31102193

 

https://link.springer.com/article/10.1007%2Fs10803-019-04050-9

 

https://www.cell.com/cell-reports/retrieve/pii/S2211124719306266?_returnURL=https%3A%2F%2Flinkinghub.elsevier.com%2Fretrieve%2Fpii%2FS2211124719306266%3Fshowall%3Dtrue

Yeah, another study about autistic poop

This week’s podcast includes a summary of the new study, this time in an animal model, looking at microbiome transplantation.  Because this was more of an experimental model, the researchers could be more rigorous in their design and look at things like behavior, brain activity, and specific biological pathways.  While a mouse does not have autism, transplantation of the autism microbiome resulted in autistic-like behaviors.   Second, a hopeful message of the value of participating in research on outcomes – those infants that were tracked prospectively showed improved outcomes later on, suggesting that all of the extra attention they get leads to a reduction in symptoms and an improvement in adaptive behavior.  Even if you do not have a family history of autism – participate in research.  It’s good for your child, and it’s good for other people’s children.

 

https://www.cell.com/cell/fulltext/S0092-8674(19)30502-1 

https://www.ncbi.nlm.nih.gov/pubmed/31032937

 

 

 

 

Loss of skills in autism partially explained

Is regression a sudden loss of previously acquired skills or is it the gradual decline in a particular area of function?  Using the right tools, both parents and clinicians can document the gaining and loss of skills in different areas, and they agree on what they see.  However, rather than being a single event, regression is slow, starting at around 12 months and showing continual declines through diagnosis.  Thanks to an NIMH day long symposium on the biological causes of regression, scientists got together to discuss this loss of skills on a biological level.  They think that the decline or loss of skills is due to biological events that disrupt the formation of specific brain circuits at critical times in development.  This can be because neurons stop developing, or maybe the brain goes overboard in shaping and pruning back connections.  If you want to see the amazing full day of presentations that aired in 2016, click here:  https://videocast.nih.gov/Summary.asp?file=19500&bhcp=1.  A link to the Ozonoff study described in the podcast is here:  https://www.ncbi.nlm.nih.gov/pubmed/29524310