Posts tagged autism

Using a kid-friendly robot during behavioral therapy sessions may help some children with autism gain better social skills, a preliminary study suggests.

The study, of 19 children with autism spectrum disorders (ASDs), found that kids tended to do better when their visit with a therapist included a robot “co-therapist.” On average, they made bigger gains in social skills such as asking “appropriate” questions, answering questions and making conversational comments.

So-called humanoid robots are already being marketed for this purpose, but there has been little research to back it up.

"Going into this study, we were skeptical," said lead researcher Joshua Diehl, an assistant professor of psychology at the University of Notre Dame in Indiana, who said he has no financial interest in the technology.

"We found that, to our surprise, the kids did better when the robot was added," he said.

There are still plenty of caveats, however, said Diehl, who is presenting his team’s findings Saturday at the International Meeting for Autism Research (IMFAR) in San Sebastian, Spain.

For one, the study was small. And it’s not clear that the results seen in a controlled research setting would be the same in the real world of therapists’ offices, according to Diehl.

"I’d say this is not yet ready for prime time," he said.

ASDs are a group of developmental disorders that affect a person’s ability to communicate and interact socially. The severity of those effects range widely: Some people have mild problems socializing, but have normal to above-normal intelligence; some people have profound difficulties relating to others, and may have intellectual impairment as well.

Experts have become interested in using technology — from robots to iPads — along with standard ASD therapies because it may help bridge some of the communication issues kids have.

Human communication is complex and unpredictable, with body language, facial expressions and other subtle cues coming into the mix, explained Geraldine Dawson, chief science officer for the advocacy group Autism Speaks.

A robot or a computer game, on the other hand, can be programmed to be simple and predictable, and that may help kids with ASDs better process the information they are being given, Dawson said.

"Broadly speaking," she said, "we are very excited about the potential role for technology in diagnosing and treating ASDs." But she also agreed with Diehl that the findings are "very preliminary," and that researchers have a lot more to learn about how technology — robots or otherwise — fits into ASD therapies.

For the study, Diehl’s team used a humanoid robot manufactured by Aldebaran Robotics, which markets the NAO robot for use in education, including special education for kids with ASDs. The robot, which stands at about 2 feet tall, looks like a toy but it’s priced more like a small car, Diehl noted.

The NAO H25 “Academic Edition” rings up at about $16,000. (Diehl said the study was funded by government and private grants, not the manufacturer.)

The researchers had 19 kids aged 6 to 13 complete 12 behavioral therapy sessions, where a therapist worked with the child on social skills. Half of the sessions involved the robot, named Kelly, which was wheeled out so the child could practice conversing with her, while the therapist stood by.

"So the child might say, ‘Hi Kelly, how are you?’" Diehl explained. "Then Kelly would say, ‘Fine. What did you do today?’" During the non-Kelly sessions, another person entered the room and carried on the same conversation with the child that the robot would have.

On average, Diehl’s team found, kids made bigger gains from the sessions that included Kelly — based on both their interactions with their therapists, and their parents’ reports.

"There was one child who, when his dad came home from work, asked him how his day was," Diehl said. "He’d never done that before."

Still, he stressed that while the robot sessions seemed more successful on average, the children varied widely in their responses to Kelly. Going forward, Diehl said, it will be important to figure out whether there are certain kids with ASDs more likely to benefit from a robot co-therapist.

Dawson agreed that there is no one-size-fits-all ASD therapy. “Any therapy for a person with an ASD has to be individualized,” she said. The idea with any technology, she added, is to give therapists and doctors extra “tools” to work with.

A separate study presented at the same meeting looked at another type of tool. Researchers had 60 “minimally verbal” children with ASDs attend two “play-based” sessions per week, aimed at boosting their ability to speak and gesture. Half of the kids were also given a “speech-generating device,” like an iPad.

Three and six months later, children who worked with the devices were able to say more words and were quicker to take up conversational skills.

Dawson said the robot and iPad studies are just part of the growing body of research into how technology can not only aid in ASD therapies, but also help doctors diagnose the disorders or help parents manage at home.

But both Diehl and Dawson stressed that no robot or iPad is intended to stand in for human connection. The idea, after all, is to enhance kids’ ability to communicate and have relationships, Dawson noted. “Technology will never take the place of people,” she said.

The data and conclusions of research presented at meetings should be viewed as preliminary until published in a peer-reviewed journal.

(Source: webmd.com)

Most infants respond to a game of peek-a-boo with smiles at the very least, and, for those who find the activity particularly entertaining, gales of laughter. For infants with autism spectrum disorders (ASD), however, the game can be distressing rather than pleasant, and they’ll do their best to tune out all aspects of it –– and that includes the people playing with them.

That disengagement is a hallmark of ASD, and one of the characteristics that amplifies the disorder as infants develop into children and then adults.

A study conducted by researchers at the Koegel Autism Center at UC Santa Barbara has found that replacing such games in favor of those the infant prefers can actually lessen the severity of the infants’ ASD symptoms, and, perhaps, alleviate the condition altogether. Their work is highlighted the current issue of the Journal of Positive Behavior Interventions.

Lynn Koegel, clinical director of the center and the study’s lead author, described the game-playing protocol as a modified Pivotal Response Treatment (PVT). Developed at UCSB, PRT is based on principles of positive motivation. The researchers identified the activities that seemed to be more enjoyable to the infants and taught the respective parents to focus on those rather than on the typical games they might otherwise choose. “We had them play with their infants for short periods, and then give them some kind of social reward,” Koegel said. “Over time, we conditioned the infants to enjoy all the activities that were presented by pairing the less desired activities with the highly desired ones.” The social reward is preferable to, say, a toy, Koegel noted, because it maintains the ever-crucial personal interaction.

"The idea is to get them more interested in people," she continued, "to focus on their socialization. If they’re avoiding people and avoiding interacting, that creates a whole host of other issues. They don’t form friendships, and then they don’t get the social feedback that comes from interacting with friends."

According to Koegel, by the end of the relatively short one- to three-month intervention period, which included teaching the parents how to implement the procedures, all the infants in the study had normal reactions to stimuli. “Two of the three have no disabilities at all, and the third is very social,” she said. “The third does have a language delay, but that’s more manageable than some of the other issues.”

On a large scale, Koegel hopes to establish some benchmark for identifying social deficits in infants so parents and health care providers can intervene sooner rather than later. “We have a grant from the Autism Science Foundation to look at lots of babies and try to really figure out which signs are red flags, and which aren’t,” she said. “A number of the infants who show signs of autism will turn out to be perfectly fine; but we’re saying, let’s not take the risk if we can put an intervention in play that really works. Then we don’t have to worry about whether or not these kids would develop the full-blown symptoms of autism.”

Historically, ASD is diagnosed in children 18 months or older, and treatment generally begins around 4 years. “You can pretty reliably diagnose kids at 18 months, especially the more severe cases,” said Koegel. “The mild cases might be a little harder, especially if the child has some verbal communication. There are a few measures –– like the ones we used in our study –– that can diagnose kids pre-language, even as young as six months. But ours was the first that worked with children under 12 months and found an effective intervention.”

Given the increasing number of children being diagnosed with ASD, Koegel’s findings could be life altering –– literally. “When you consider that the recommended intervention for preschoolers with autism is 30 to 40 hours per week of one-on-one therapy, this is a fairly easy fix,” she said. “We did a single one-hour session per week for four to 12 weeks until the symptoms improved, and some of these infants were only a few months old. We saw a lot of positive change.”

(Source: ia.ucsb.edu)

An Autistica consultation published this month found that 24% of children with autism were non-verbal or minimally verbal, and it is known that these problems can persist into adulthood. Professionals have long attempted to support the development of language in these children but with mixed outcomes. An estimated 600,000 people in the UK and 70 million worldwide have autism, a neuro-developmental condition which is life-long.

Today, scientists at the University of Birmingham publish a paper in Frontiers in Neuroscience showing that while not all of the current interventions used are effective, there is real hope for progress by using interventions based on understanding natural language development and the role of motor and “motor mirroring” behaviour in toddlers.

The researchers, led by Dr Joe McCleery, who is supported by autism research charity Autistica, examined over 200 published papers and more than 60 different intervention studies, and found that:

• Motor behaviours, such as banging toys and copying gestures or facial expressions (“mirroring”), play a key role in the learning of language.
• Children with autism show specific motor impairments, and less “mirroring” brain activity, particularly in relation to strangers in whom they show very little interest. This finding may hold the key to language problems overall.
• Despite extensive use of sign language training to improve speech and communication skills in non-verbal children with autism, there is very little evidence that it makes a positive impact, potentially due to the impairments in motor behaviours and mirroring.
• Picture exchange training can lead to improvements in speech. Here, children gradually learn to “ask” for things by exchanging pictures. This may work well because it does not depend on complex motor skills or mirroring.
• Play-based approaches which employ explicit teaching strategies and are developmentally based are particularly successful.
• New studies involving a focus on motor skills alongside speech and language intervention are showing promising preliminary results. This is exciting because these interventions utilise our new understanding of the role of motor behaviours in the development of speech and social interaction.

With the support of Autistica, the UK’s leading autism research charity, Dr McCleery’s team have now embarked on new work which builds on these findings to design interventions which specifically target the aspects of development where there are deficits in non-verbal autistic children.

Dr McCleery says: “We feel that the field is approaching a turning point, with potentially dramatic breakthroughs to come in both our understanding of communication difficulties in people with autism, and the potential ways we can intervene to make a real difference for those children who are having difficulties learning to speak.”

Christine Swabey, CEO of Autistica, says: “80% of the parents in our recent consultation wanted interventions straight after diagnosis. Dr McCleery’s work shows how critical it is for all intervention to be evidence-based, and that the best approaches are based on a real understanding of the development of difficulties in autism. We are proud to be supporting the next steps in this vital research which will improve the quality of life for people with autism.”

Alison Hardy, whose son Alfie is six, says: “As a parent of an autistic child, who is non-verbal, I feel quite vulnerable. People are always saying “try this, it worked wonders for us”. But you can’t try everything. We need a proper, scientific evidence base for what works and what does not. Then we can focus our time and our effort, with some confidence that we have a chance of helping our children. The publication of this research is an exciting step in giving us that confidence, it is great that Autistica is supporting this vital work.”

(Source: eurekalert.org)

Scientists from King’s College London have identified patterns of epigenetic changes involved in autism spectrum disorder (ASD) by studying genetically identical twins who differ in autism traits.

The study, published in Molecular Psychiatry, is the largest of its kind and may shed light on the biological mechanism by which environmental influences regulate the activity of certain genes and in turn contribute to the development of ASD and related behaviour traits.

ASD affects approximately 1 in 100 people in the UK and involves a spectrum of disorders which manifest themselves differently in different people. People with ASD have varying levels of impairment across three common areas: deficits in social interactions and understanding, repetitive behaviour and interests, and impairments in language and communication development.

Evidence from twin studies shows there is a strong genetic component to ASD and previous studies suggest that genes that direct brain development may be involved in the disorder. In approximately 70% of cases, when one identical twin has ASD, so does the other. However, in 30% of cases, identical twins differ for ASD. Because identical twins share the same genetic code, this suggests non-genetic, or epigenetic, factors may be involved.

Epigenetic changes affect the expression or activity of genes without changing the underlying DNA sequence – they are believed to be one mechanism by which the environment can interact with the genome. Importantly, epigenetic changes are potentially reversible and may therefore provide targets for the development of new therapies.

The researchers studied an epigenetic mechanism called DNA methylation. DNA methylation acts to block the genetic sequences that drive gene expression, silencing gene activity. They examined DNA methylation at over 27,000 sites across the genome using samples taken from 50 identical twin pairs (100 individuals) from the UK Medical Research Council (MRC) funded Twins Early Development Study (TEDS): 34 pairs who differed for ASD or autism related behaviour traits, 5 pairs where both twins have ASD, and 11 healthy twin pairs.

Dr Chloe Wong, first author of the study from King’s College London’s Institute of Psychiatry, says: “We’ve identified distinctive patterns of DNA methylation associated with both autism diagnosis and related behaviour traits, and increasing severity of symptoms. Our findings give us an insight into the biological mechanism mediating the interaction between gene and environment in autism spectrum disorder.”

DNA methylation at some genetic sites was consistently altered for all individuals with ASD, and differences at other sites were specific to certain symptom groups. The number of DNA methylation sites across the genome was also linked to the severity of autism symptoms suggesting a quantitative relationship between the two. Additionally, some of the differences in DNA methylation markers were located in genetic regions that previous research has associated with early brain development and ASD.

Professor Jonathan Mill, lead author of the paper from King’s College London’s Institute of Psychiatry and the University of Exeter, says: “Research into the intersection between genetic and environmental influences is crucial because risky environmental conditions can sometimes be avoided or changed. Epigenetic changes are potentially reversible, so our next step is to embark on larger studies to see whether we can identify key epigenetic changes common to the majority of people with autism to help us develop possible therapeutic interventions.”

Dr Alycia Halladay, Senior Director of Environmental and Clinical Sciences from Autism Speaks who funded the research, says: “This is the first large-scale study to take a whole genome approach to studying epigenetic influences in twins who are genetically identical but have different symptoms. These findings open the door to future discoveries in the role of epigenetics – in addition to genetics – in the development of autism symptoms.”

(Source: kcl.ac.uk)