Rubber-hand illusion aids understanding of autism
News Feb 02, 2015
New research could lead to a better understanding of how the brain works in people with autism.
There is an enormous disease burden from autism, and little is known about the cognitive processes involved.
Researchers from Monash University and Deakin University in Australia looked at new theories of autism that focused on the way in which the brain combines new information from its senses with prior knowledge about the environment.
PhD student Colin Palmer from Monash University's School of Philosophical, Historical and International Studies said autism was a life-long condition that affects many people in the community.
"It is still unclear what is happening differently in the brain to produce the social, sensory and other difficulties that individuals with autism can face," Mr Palmer said.
"We are testing a new type of theory, which implicates the brain's capacity for making predictions about its own sensory input. Autism may be related to problems with making those predictions sensitive to the wider context. This means that new sensory input is interpreted out of context, making it difficult to understand the world and to generalize to new situations."
Using the 'rubber-hand' illusion, the researchers examined how adults with autism experienced 'ownership' of a fake prosthetic hand.
In the 'rubber-hand' illusion, one of the subject's hands is placed out of sight, while a rubber hand sits in front of them. By stroking the fake hand at the same time as the visible real one, the subject can be convinced the fake hand is theirs.
Following their experience of the illusion, participants were then asked to reach out and grasp an object with their hand. The researchers found these hand movements were disrupted by their previous experience of the illusion.
The researchers found people low in autism-like traits were the most sensitive to the illusion.
"People with autism experienced the typical perceptual effects of the rubber-hand illusion, but, unusually, we find that they are more resistant to the effects of the illusion on arm movement," Mr Palmer said.
The results suggest that in autism the brain may draw less on background information from the surrounding environment when performing movement than for someone not on the spectrum.
"The study suggests that individuals may differ in how their brains draw upon contextual information when perceiving and interacting with the world," Mr Palmer said.
"This could contribute to sensory and movement difficulties, which are commonly experienced in autism."
Future research will look at how this type of processing difference may contribute to social behavior, given that our understanding of social situations (such as other people's thoughts and intentions) often depends on taking into account the broader context.
The study was a collaboration between the Cognition and Philosophy Lab at Monash University, the Cognitive Neuroscience Unit at Deakin University, and the Monash Alfred Psychiatry research centre.
The study has been published in Proceedings of the Royal Society B.
Note: Material may have been edited for length and content. For further information, please contact the cited source.
C.J. Palmer, B. Paton, M. Kirkovski, P.G. Enticott, J. Hohwy. Context sensitivity in action decreases along the autism spectrum: a predictive processing perspective. Proceedings of the Royal Society B: Biological Sciences, Published January 28 2015. doi: 10.1098/rspb.2014.1557
A Place to Think: Persistent neuronal activity in human prefrontal cortex links perception and actionNews
Neuroscientists have tracked the progress of a thought through the brain, showing clearly how the prefrontal cortex at the front of the brain coordinates activity to help us act in response to a perception.READ MORE
Midbrain 'Start' Neurons Initiate and Control LocomotionNews
‘Start neurons’ in the midbrain are essential to take the first step to initiate locomotion and control the speed, mice models show.READ MORE
How We Sense Touch: Skin cells communicate with nerve cellsNews
The study in mice paves the way for future research into the skin–nerve–brain communication errors that occur in disorders such as dermatitis and psoriasis and could inform the development of new topical treatments for these conditions.READ MORE