A new study published in the Journal of Computer-Assisted Learning introduces a novel Robot-Inspired Computer-Aided Adaptive Autism Therapy (RoboCA3T) that leverages the natural affinity of children with autism spectrum disorder for technology and robots.
RoboCA3T harnesses the potential of robot-assisted therapies by integrating robot avatars with computer-assisted therapies through a web-based solution.
When investigators assessed Childhood Autism Rating Scale scores before and after the intervention, they noted significant enhancement in joint attention, or the ability to coordinate attention and share a point of reference with another person. Scores also indicated improvements in imitation skills, indicating that the treatment helped children to observe and mirror the behaviours of others.
“The research contributes significantly to the ongoing effort to develop cost-effective, time-efficient, evidence-based treatments for children with autism spectrum disorder,” said corresponding author Sara Ali, PhD, of the National University of Sciences and Technology, in Pakistan. “RoboCA3T prioritizes personalized content delivery along with the integration of AI-based automatic gaze and pose detection algorithms.”
There is some confusion about ADHD and Autism, and I’ve received many requests to explain the differences. In this video, I discuss the key differences between the two disorders and how to tell them apart.
Research led by June Round, PhD, University of Utah, has shown that microbes that live in the gut influence health and social behaviour. CREDIT Charlie Ehlert, University of Utah Health
For autistic people, constipation, diarrhoea, and abdominal pain often go along with the social struggles and repetitive behaviours that define the condition. This has prompted many to wonder whether gastrointestinal (GI) problems arise due to autism’s behavioural or sensory features or whether they might instead contribute to them.
Now, scientists at the University of Utah Health have added to mounting evidence showing that microbes that live in our guts influence behaviour.
The new study, recently published in Nature Communications, demonstrates that it is possible to control-controlled manipulation of the gut microbiome to impact health and behaviour.
“I think that this is a really important step therapeutically because now we can start to assemble a therapy with organisms that we know to be safe,” says June Round, Ph.D., a microbiologist at U of U Health, who led the research.
The Gut-Behavior Connection
Because scientists are still trying to untangle the relationship between GI problems and autism-related behaviours, Round and her team began their study by investigating the behavioural impact of GI distress in mice. Graduate student Garrett Brown, PhD, studied mice with an inflammatory condition called colitis, which causes pain, diarrhoea, and intestinal damage.
After several rounds of colitis, the animals’ symptoms were allowed to subside before behavioural testing. Mice that had experienced colitis moved around normally and showed no signs of anxiety or depression. However, they spent less time interacting with unfamiliar mice than mice that had not experienced colitis. “It’s not like the mice are under so much pain that they’re not doing anything,” Brown says. “So maybe it is something specific to sociability and not just that the mice feel poorly.”
The researchers observed a reluctance to socialize that was reminiscent of the social activities associated with autism. Since their experiments suggested that problems in the gut might drive changes to social behavior, they wondered whether the microbes there—which tend to differ between autistic and neurotypical people—might be involved in both.
To investigate, Brown collected stool samples from people with autism as well as from their neurotypical parents or siblings. Then, he delivered the microbe-filled samples to the GI tracts of mice.
When he induced colitis in those animals, mice carrying microbes from individuals with autism had more intestinal damage and lost more weight than mice whose microbes came from neurotypical individuals. The mix of microbes collected from neurotypical individuals seemed to have a protective effect.
Finding Microbial Protectors
The microbial community inside the human gut is so complex that the team’s samples could easily have included hundreds of kinds of bacteria, viruses, and fungi. Round and Brown wanted to know which community members protected against intestinal problems.
To do that, Brown compared the gut microbes from individuals with autism to those from their neurotypical family members and the microbes living in the guts of mice that had been transplanted with those microbial communities. He was looking for potentially protective microbes that might be underrepresented in people with autism compared to neurotypical individuals—and he found some.
“We were able to pick out individual microbes that we thought might be playing important roles in resisting severe colitis,” explains Brown, who is now a fellow at the National Institutes of Health Clinical Center.
Two in particular stood out. Certain species of Blautia bacteria were better represented in neurotypical individuals than in their autistic family members. And among mice colonized with microbes from autistic people, a group called Bacteroides uniformis was more abundant in those whose colitis was less severe. B. uniformis is known to be underrepresented in people with irritable bowel syndrome and Crohn’s disease, suggesting a role in intestinal health.
Once the researchers had zeroed in on these groups of bacteria, Brown delivered them to mice prior to inducing colitis. Blautia and Bacteroides uniformis reduced intestinal problems, and the Blautia had a corresponding effect on social behaviour. Animals that received the Blautia bacteria were likelier than other mice to engage with unfamiliar mice following colitis.
Toward Personalized Therapies
Round says the study is one of the first to identify specific organisms within the human microbiota that can ameliorate a behavioural deficit associated with GI stress. “This is an example where we are missing microbes, and missing these beneficial microbes is driving disease,” she says.
Further research will be needed to clarify whether boosting the numbers of Blautia or Bacteroides uniformis bacteria might benefit people with GI disorders, autism, or other conditions. But Round says teasing out their individual effects is an important step toward personalized microbiome-targeted therapies.
“One day,” she says, “we’re going be able to quickly analyze the microbiome and say, ‘Hey, you’re missing this really important microbe. We’re going to give it back to you.’”
How can you manage anxiety and avoid meltdowns when you only realise you’re anxious when it’s TOO LATE? Alexithymia is difficulty noticing and categorising your own emotions, and around 50% of Autistic people are Alexithymic as opposed to 5% of neurotypicals. Alexithymia can have some major impacts on managing and processing emotions in daily life and within psychotherapy; in the case of autistic people, we may find anxiety strategies DON’T work for preventing autistic meltdowns. In Thomas’ experience, he could see changes in his emotion-related behaviour, but couldn’t feel the emotion until it became WAY TOO intense… thinking of these behavioural states as different personalities or colours. Within the video Thomas shares his two TOP TIPS for navigating around Autistic alexithymia and reducing incidents of meltdowns and panic attacks in his own life.
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