Autism Auckland Consultancy
04/07/2019
UNC School of Medicine scientists unveiled how a particular gene helps organize the scaffolding of brain cells called radial progenitors necessary for the orderly formation of the brain.
Anton and colleagues discovered that a gene encoding for a protein called Memo1 is needed to organize the tiled radial glial cell scaffold. Mutations in the Memo1 gene also have been found in some people with autism and are suspected of causing the condition.
The neuroscience of autism: New clues for how condition begins UNC School of Medicine scientists unveiled how a particular gene helps organize the scaffolding of brain cells called radial progenitors necessary for the orderly formation of the brain. Previous studies have shown that this gene is mutated in some people with autism.
01/07/2019
Neuroplasticity is the key mechanism of lasting neural change as a result of ASI intervention. Sensory integration theory emphasizes the active, dynamic sensory–motor processes that support movement as well as interaction within social and physical environments and that act as a catalyst for development. Reduction or elimination of recess, which provides children with opportunities for sensory–motor exploration and skill development, has long been shown to be detrimental to learning. Additionally, a body of research shows that frequent classroom breaks with movement experiences result in improved academic performance.
Neural Foundations of Ayres Sensory Integration® Sensory integration, now trademarked as Ayres Sensory Integration® or ASI, is based on principles of neuroscience and provides a framework for understanding the contributions of the sensory and motor foundations of human behavior. The theory and practice of ASI continues to evolve as greater und...
18/06/2019
Chronic inflammation removes motivation by reducing dopamine in the brain Why do we feel listless when we are recovering from an illness? The answer is, apparently, that low-grade chronic inflammation interferes with the dopaminergic signaling system in the brain that motivates us to do things.
08/06/2019
Researchers at the University of Tokyo have studied how exercise can change the structure of mouse brains modeling autism spectrum disorder.
Exercise Helps Eliminate Behavioral Differences in Mouse Model of Autism A mouse model of autism has revealed how exercise changes the structure of the brain by eliminating the excess connections between neurons characteristic of autism spectrum disorder (ASD). After one month of voluntary running on a wheel, behavioral differences disappeared and structural differences....
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