Feeds:
Posts
Comments

Posts Tagged ‘research’

By Roseann Schaaf, PhD, OTR/L, FAOTA

schaaf-kids

Courtesy: Roseann Schaaf, PhD

Life is a sensory experience! We touch, hear, feel our muscles, move our bodies, taste, and smell and use vision to take in information from the environment, process and integrate it to act and interact as well as to learn and grow. Upwards of 80% of persons with Autism Spectrum Disorder (ASD) experience differences in the way they perceive and process sensory information. This impacts the ways in which they participate in functional tasks such as speaking, moving, eating, dressing, interacting with others, playing, learning and working. These sensory features are now part of the diagnosis of autism in the DSM5.

As an occupational therapist and a neuroscientist, my interest in the sensory features of ASD developed from working with children and families who often articulated how decreased sensory perception, integration or sensory sensitivities affected their everyday lives. As we worked together to improve independence and skill in daily life activities, success at school and to foster social engagement, it became clear that we needed to address these sensory differences in order to achieve their desired goals. We used the principles of sensory integration (Ayres, 2005; Bundy, et al, 2001) to target these issues and saw positive results! To share our knowledge and test this approach we received funding to write a manualized protocol (Schaaf & Mailloux, 2015), test its effectiveness, and publish our findings (Schaaf, et al, 2014). This study showed that children with ASD who received the occupational therapy using sensory integration treatment performed significantly better in functional skills and individual goals compared to controls.

schaaf-kids2

Courtesy: Roseann Schaaf, PhD

We are now conducting a larger, more comprehensive study and are seeking families who have a child with ASD aged 6-9.5 years who may want to participate in the study. This study is a collaboration with Thomas Jefferson University and Albert Einstein Medical Center and is located in the Bronx, NY. Children will receive a full diagnostic battery and then be randomized to one of the treatments (Sensory Integration or a behavioral intervention) and will receive 3 one-hour sessions/week for a total of 30 treatments. Parents must be willing to travel to Albert Einstein College of Medicine (1225 Morris Park Avenue, Suite 1-C, Bronx, NY 10461). Participants will receive a total of $250 and a report of the child’s performance and assessment data at the end of the study. Children have a 1/3 chance of being randomized into the “No Treatment” arm of the study but will still receive all assessments and stipends for participation.

The report will indicate whether the child performed below, at, or above average in the last round of the following tests:

  • Wechsler Abbreviated Scale of Intelligence (WASI-II)
  • Autism Diagnostic Observation Schedule (ADOS-2)
  • Sensory Integration and Praxis Tests (SIPT)
  • Assessment of Motor and Process Skills (AMPS)
  • Evaluation of Social Interaction (ESI)
  • Aberrant Behavior Checklist (ABC)
  • Restrictive and Repetitive Behaviors Rating Scale Revised (RBS-R)
  • Pediatric Evaluation of Disability Inventory Computer Adaptive Test (PEDI-CAT)
  • Pervasive Developmental Disorders Behavioral Inventory
  • Sensory Processing Measure (SPM)

If you know of any families who are interested, please have them contact the study coordinator at 718-862-1817 or sophia.zhou@einstein.yu.edu. Learn more about the lab here and the study here.

Advertisements

Read Full Post »

By Meghan Miller, PhD

Kids playing with a tablet

More and more, researchers and clinicians are thinking about how advances in technology can be leveraged for interventions for children with autism. Tablets, computers, and video games have become increasingly available to children in their daily lives. At the same time, the American Academy of Pediatrics has put forth clear screen time guidelines for children, and many parents worry about their children spending too much time in front of a screen or with devices.

In the autism field, technology is providing promising avenues for early detection and intervention. For example, a recent study describes the use of mobile technology to screen for autism in young children. Others have developed apps and virtual reality systems through which treatments can be delivered. But what good are advances in technology-based interventions if parents aren’t interested in utilizing them?

Researchers at the UC Davis MIND Institute on the UC Davis Medical Center campus in Sacramento are conducting a study of parental perceptions of use of technology in treatment of impulsivity in 4 to 7-year-olds with autism spectrum disorder. Parents of 4 to 7-year-old children who have been diagnosed with autism spectrum disorder (ASD) can participate. Families can expect to complete of several online questionnaires about: Your family, your opinions about technology in treatment, and your child’s behavior. These questionnaires will take about 10 minutes of your time.

Take our survey: http://bit.ly/autismtechsurvey

Learn more here: https://studypages.com/s/technology-in-treatment-study-364017/

Read Full Post »

ASF funded fellow Nick Goeden from USC examines the role of the placenta.  

Blog written by Priyanka Shah, ASF intern 

Many researchers are studying various factors during pregnancy that can lead to an increased risk of autism and other neurodevelopmental disorders in children. Maternal infection and inflammation have been shown to be risk factors for autism and schizophrenia. For example, in recent news, we have seen how expecting mothers infected with the Zika virus have given birth to babies with a high-risk for brain damage and other abnormalities. So, studying how maternal health (in this case, a viral infection) affects the fetus can help us predict for possible disorders and possibly even prevent them.

20150116_120652[1]

Nick Goeden, graduate student and lead researcher

In particular, at the University of Southern California, Nick Goeden and colleagues studied how the placenta was affected after the mother experienced inflammation. The placenta is a tissue in a woman’s uterus that provides nourishment to the fetus through the umbilical cord. The placenta also produces an important chemical messenger, called serotonin, which is transmitted to the fetus and plays a role in organizing the brain during development. After birth, it helps regulate emotions and has been implicated in depression and anxiety.

Researchers decided to use a mouse model to see how maternal inflammation can affect the production of serotonin in the placenta and brain development in the fetus. To do this, they used a chemical that induces inflammation in pregnant mice, and mimics flu-like conditions seen in humans. They found that the amount of serotonin in the placenta drastically increased, leading to increased amounts of serotonin in the fetal brain. During brain development, brain cells migrate and become connected together like an electric network. The formation of certain brain cells that specifically help move serotonin around was disrupted, which means that the fetus’ brain became wired differently. Because of this, some of the behaviors serotonin helps control could have been affected. And in fact, other studies have shown how maternal infection during pregnancy can lead to increased anxiety or depression-like symptoms in the offspring.

This study shows that even mild inflammation during pregnancy can induce a series of events that eventually disrupts the development of the fetal brain. Although these children will have a higher risk for known mental disorders such as ASD or schizophrenia, these diagnoses are not guaranteed. Our next steps in this line of research should be to see the long-term effects of inflammation on the serotonin-specific brain cells and related behaviors. Researchers should also look at how other infections and viruses might be changing the production of other chemical messengers or molecules in the placenta. Understanding the biological mechanisms of the placenta and of fetal brain development can help direct new research into prevention and therapy for neurodevelopmental disorders in children.

Read Full Post »

%d bloggers like this: