- The gut.
You may recall me talking about a ground-breaking new study in January (Hope in Poo) where alterations in the gut ecosystem were linked to autism traits. These scientists used Microbiota Transfer Therapy (Fecal microbiota transplant (FMT), also known as a stool transplant, is the process of transplantation of fecal bacteria from a healthy individual into a recipient) which was tested and proven to improve gastrointestinal and autism symptoms.
The gut has always been under observation in autism study. That’s why a gluten-free and casein-free diet is an alternative treatment. In “Best Food Critic in Town” I mentioned: Marilyn Le Breton, who explains:
“When you eat, the food you consume is broken down in your stomach. The bits that are not used by the body are flushed out as waste matter. In autistic people, the breakdown of two proteins present in some foods, gluten and casein, is not completed properly. The resulting fragments of these proteins are called peptides. Peptides are small enough to pass through the wall of the gut, rather than being processed in the normal way. As the peptides journey around the body, they make a pit stop at the brain, where they do untold damage before continuing their journey and finally making their way out of the body, via urine. Both are very similar to morphine, a highly addictive drug.”
2. Stem cells
In “Dog Treats, Ice Cube and Rutgers University for Autism” I mentioned stem cells research, a first-of-its-kind study at Duke University in Durham, North Carolina. The study assessed whether a transfusion of the children’s own umbilical cord blood containing rare stem cells could help treat their autism.
Dr. Joanne Kurtzberg, who heads the Robertson Clinical and Translational Cell Therapy Program, teamed up with Dr. Geraldine Dawson, director of the Duke Center for Autism and Brain Development began a trial over two years ago. During this time 70% of the 25 children, age 2 to 6, were found to have behavioral improvements by their parents and tracked by the Duke researchers. The children traveled to Duke three times over the course of a year. They underwent a series of evaluations such as autism assessments, MRIs and EEGs to track their brain activity. On the first trip, the children received the cord blood infusion along with the intense evaluations. Each child received 1 billion to 2 billion cells, given through an IV in their arms or legs. At six months and then a year later, the children returned for more tests and observations.
At present they are overseeing the definitive trial on whether cord blood can treat autism. This is tested by using a double-blind, placebo-controlled trial involving 165 autistic children, ranging in age from 2 to 8. The FDA has oversight of the study.
The hypothesis of the study is that certain immune cells within the cord blood are crossing the blood-brain barrier and altering brain connectivity while also suppressing inflammation, which may exist with autism.
Autism Speaks‘ MSSNG Project, has highlighted an additional 18 gene variations linked to the development of ASD. Nature Neuroscience Journal, published a report on this project which found that the 18 newly-identified autism genes can be instrumental in understanding the pathways in the brain that affect how cells ‘talk’ to each other. Furthermore, the report talks about ‘copy number variations’ and abnormalities, which are essentially copy variations found in areas of the genome once considered to be ‘junk DNA’. These areas, full of the copy variations, help to control when and where our genes switch on and off and appear to be crucial to brain development and function.
Genetic sequencing for autism is paramount if we are ever to understand what autism is and how we can prevent or treat it. Understanding the biological factors that contribute to the condition can lead to better treatments for each individual case, as no two people on the spectrum present the same traits.
Ten years ago, Michael Wigler and his colleague, Jonathan Sebat, reported that ‘de novo’ mutations (mutations occurring spontaneously) occur more often in people with autism. The mutations they noted were in the form of ‘copy number variants’ (CNVs), deletions or duplications of long stretches of DNA. Data from more than 600 families, they identified CHD8, DYRK1A, SCN2A as some of the leading ‘autism’ genes.
Right now, 10 years later, researchers pinpointed 65 genes and six CNVs as being key to autism. “More and more, we are erasing this idea of autism being a stigmatizing psychiatric disorder, and I think this is true for the whole of psychiatry. These are genetic disorders; this is a consequence of biology, which can be understood, and where traction can be made.” says Stephan Sanders, assistant professor of psychiatry at the University of California, San Francisco, who co-led the study.
The stigma attached to autism comes from the early link between autism and
schizophrenia. Swiss psychiatrist Paul Eugen Bleuler coined the term ‘autism’ to describe a key feature of schizophrenia. Specifically, Bleuler used ‘autism’ to describe how people with schizophrenia tend to disengage from the outside world. It was not until 1943 that an American child psychologist, Leo Kanner, reclaimed the word for the range of traits we know today as autism. Psychologists Noah Sasson and Amy Pinkham hope to build up a new vocabulary to help disentangle the two conditions in “The social ties between autism and schizophrenia“.
Autism is also commonly misinterpreted as a learning disability. Despite the fact that a good percentage of people on the spectrum may face learning difficulties in addition to an autism diagnosis, or may present the familiar autism symptoms, the two are separate. Intellectual disability, also known as learning disability, is currently defined as a significantly reduced ability to understand new or complex information, to learn new skills and a reduced ability to cope independently. Typically, this is measured by intellectual functioning (commonly referred to as IQ) and adaptive functioning (day-to-day independent skills), both of which are significantly below that which would be typically expected with difficulties in most, if not all, areas of intellectual functioning and daily living skills.
This is why we need to learn, read and understand autism. Appropriate assessment and formulation can facilitate early intervention and help people on the spectrum get the help they require early on.
Our generation is lucky enough to be living in a time where autism is at the forefront, our stories are being heard and the research is ground-breaking. Stop wasting your time reading about Blac Chyna and the Kardashians and read these reports. Maybe next time you use the word ‘autistic’ you’ll know a more about what it means. Maybe if you learn about autism and teach your children about it, they will be inspired enough to become the ones that solve the puzzle. It may be that you are the one.