Hyperactivity

SHANK3 Duplication Leads to Hyperactivity in Mice

Source: 
Simons Foundation Autism Research Institute
Date Published: 
December 17, 2013
Abstract: 

Mice with a duplication of SHANK3, a gene with strong links to autism, are hyperactive and manic, reports a study published in Nature.The mice produce about 50 percent more SHANK3 protein than their genetically typical counterparts, the scientists found, much like people with an extra copy of the gene do. The mice also show signs of hyperactivity. The team observed on further testing that the SHANK3 mice show behaviors typically seen in people going through manic episodes. The mice are easier to startle, eat more, have disrupted sleeping patterns and show heightened sensitivity to amphetamine. The mice also have spontaneous seizures.

Autistic Children and Adults Find Calm in "Snoezelen" Room

Source: 
Tampa Bay Times
Date Published: 
August 27, 2013
Abstract: 

A multisensory room, known as the Snoezelen room, in an Autism Behavioral Center in St. Petersburg, FL is helping individuals with developmental disabilities by allowing them to regulate how much sensory stimulation they experience while in the room. The light up ball pit, patterns of light projected on the wall, and other forms of sensory stimulation are all controlled by a remote given to the individual. There are 1,200 rooms like this in the United States providing a calming experience for people with autism by giving them an escape from an overstimulating world.

Study Finds Hyperconnectivity in Certain Brain Regions in Individuals with Autism.

Source: 
JAMA Psychiatry
Date Published: 
June 26, 2013
Abstract: 

During a brain study, researchers found that individuals with autism have specific areas of hyperconnectivity in the brain. This supports the theory that unique autistic behaviors stem from differences in brain wiring.

Study Shows 1/3 of All Children With Autism Have ADHD

Source: 
Kennedy Krieger Institute
Date Published: 
June 5, 2013
Abstract: 

During its study, the Kennedy Krieger Institute found that 1/3 of participants who have autism were also diagnosed with ADHD. This could suggest a genetic link between the two conditions.

Researchers debut SHANK2 mouse, SHANK3 rat

Source: 
SFARI
Abstract: 

Researchers debut the SHANK2 mouse and SHANK3 rat at the 2011 Society for Neuroscience annual meeting. SHANK2 belongs to the same family as SHANK3, a well-established autism candidate gene.

Attention deficit, autism share genetic risk factors

Source: 
SFARI
Date Published: 
August 22, 2011
Abstract: 

People with autism and attention deficit hyperactivity disorder (ADHD) share some of the same underlying genetic risk factors, according to a study published this month in Science Translational Medicine. This is one of the first studies to find risk variants that are common to both disorders.
In searching for rare copy number variations (CNVs) — deletions and duplications in genetic material — in people with ADHD, the researchers found more than a dozen regions that include genes implicated in bipolar disorder, schizophrenia, intellectual disability and autism.

Minocycline Promising in Fragile X Syndrome

Source: 
Medscape Today
Date Published: 
September 7, 2010
Abstract: 

Parents of children with fragile X syndrome report that minocycline led to positive improvements in language, attention levels and behavior. They also report experiencing adverse side effects such as mild gastrointestinal issues and some increased irritability.

Stereotypes and Hyperactivity in Rhesus Monkeys Exposed to IgG from Mothers of Children with Autism

Source: 
Brain Behavior Immunology, Martin, Ashwood, Braunschweig, Cabanlit, Van de Water, Amaral
Date Published: 
2008

One proposed cause of ASD is exposure of the fetal brain to maternal autoantibodies during pregnancy [Dalton, P., Deacon, R., Blamire, A., Pike, M., McKinlay, I., Stein, J., Styles, P., Vincent, A., 2003. Maternal neuronal antibodies associated with autism and a language disorder. Ann. Neurol. 53, 533-537]. To provide evidence for this hypothesis, four rhesus monkeys were exposed prenatally to human IgG collected from mothers of multiple children diagnosed with ASD. Four control rhesus monkeys were exposed to human IgG collected from mothers of multiple typically developing children. Five additional monkeys were untreated controls. Monkeys were observed in a variety of behavioral paradigms involving unique social situations. Behaviors were scored by trained observers and overall activity was monitored with actimeters. Rhesus monkeys gestationally exposed to IgG class antibodies from mothers of children with ASD consistently demonstrated increased whole-body stereotypies across multiple testing paradigms. These monkeys were also hyperactive compared to controls. Treatment with IgG purified from mothers of typically developing children did not induce stereotypical or hyperactive behaviors. These findings support the potential for an autoimmune etiology in a subgroup of patients with neurodevelopmental disorders. This research raises the prospect of prenatal evaluation for neurodevelopmental risk factors and the potential for preventative therapeutics.