Neuroscientist John Gabrieli uses brain imaging to discover key differences in children with dyslexia that could point to new interventions.
Meeri Kim: You have used brain imaging – methods that probe the structure and function of the living brain – to explore fundamental topics like human emotion, aging, and memory. Today, I’d like to focus on your work in dyslexia. First of all, what is now known about dyslexia, and how has our knowledge of the learning disorder advanced over the years?
John Gabrieli: Dyslexia, defined as an unexplained difficulty in learning to read, affects 10-12% of children. We used to think that the main problem was with adding a visual component to language — in other words, children were speaking at home in a satisfactory way, but then went to school and had trouble once print was introduced.
Now there is this broad consensus that the most common reason for reading difficulties actually has to do with the processing of spoken language. Some children process spoken language in a way that makes it hard for them to grasp what is called phonological awareness, a skill that allows one to consciously or explicitly understand that a word is made of multiple sounds. Children need to understand the multiple sounds within a word in order to map those sounds onto print and to relate them to the words they know.
MK: Does this phonological awareness deficit translate to a noticeable difference in brain structure or function?
JG: In terms of the brain, there’s quite a bit of convergent evidence that at least two areas essential for reading function differently and disadvantageously in children who are poor readers. The two spots are both located in the left hemisphere, which is the language hemisphere and becomes dominant for reading with experience. One spot in the left temporal region is specialized for the perception of print, and another in the parietal area is specialized for relating print to sound. Many studies have shown that these areas function differently in children and adults with dyslexia.
Also, compelling evidence exists that some aspects of brain anatomy are different in children with dyslexia, and that those characteristics are evident before they attend school — even within a month of birth.
“In the future, if we could identify brain differences near birth, there could be an entire new generation of interventions even done at home.”
MK: Your lab recently published a study looking at brain plasticity in individuals with dyslexia. What did you find?
JG: With typically-reading individuals, if something is seen or heard repeatedly, their brain processes it more efficiently each time. We see that efficiency manifested as lowered brain activation in response to the stimuli almost immediately after the second, third, or fourth time that they see or hear something.
But using magnetic resonance imaging (MRI), we observed that adults and children with dyslexia had far less of this adaptation to repeated auditory and visual stimuli, suggesting that the dyslexic brain is more rigid and less plastic. The stimuli included spoken words and print. Less efficient processing of these kinds of information is probably not helpful for learning how to read.
The surprise of the study was that this finding of less plasticity extended even to things like repeated faces and objects, which are not part of reading. It’s a bit of a mystery why it would extend this far, since nobody notices individuals with reading difficulty having trouble with faces or objects.
MK: One of your earlier studies found that people with dyslexia have a harder time identifying voices. Is that result related to less plasticity in the brain as well?
JG: Yes, and that result actually led us to do this more recent MRI study. We found that individuals with dyslexia had impaired voice-recognition abilities compared to control subjects which made us wonder about the plasticity of the brain that supports learning.
MK: What is being offered in terms of early intervention for children with dyslexia? Are current interventions helpful?
JG: There are reading programs for early intervention that involve small groups with an expertly-trained teacher. They help children focus on thinking about the sound units of language, and how they apply to print. So it’s more direct instruction. Almost every kid gets some of that in school naturally, as part of the curriculum, but some children just need more support.
“There is good evidence that these interventions are most effective when they’re administered in kindergarten or first grade. And with every passing grade, they become less helpful to students.”
There is good evidence that these interventions are most effective when they’re administered in kindergarten or first grade. And with every passing grade, they become less helpful to students. So the faster we can bring students to be identified and given support, the more they can be helped.
Unfortunately, we have a system that’s often based on a sort of “wait to fail” model, where well-intentioned teachers in schools often can’t quite decide if students have a reading problem until they’re so far behind that it becomes a crisis. And that’s a huge loss because not only are these children forgoing early intervention, but they often feel very defeated about their capacity to do well in school. If they’re far behind their peers and really struggling, instead of being confident and optimistic learners, they’re often very unsure about their school abilities.
MK: Do you believe your findings could be used to improve on current interventions?
JG: In the future, if we could identify brain differences near birth, there could be an entire new generation of interventions even done at home. Although this is exploratory, it would open up the possibility of support before the child even gets to school.
“Unfortunately, we have a system that’s often based on a sort of “wait to fail” model, where well-intentioned teachers in schools often can’t quite decide if students have a reading problem until they’re so far behind that it becomes a crisis.”
There is some amazing research going on in animals — and this is not ready for people — for developing medications that promote plasticity. It’s hard to imagine that a medicine would work on language directly, but a medicine that works on promoting a bit of plasticity is not out of the question.
However, one would have to think cautiously in terms of the ethics of such a treatment before implementing it in humans.
Footnotes
John Gabrieli is the Director of the Athinoula A. Martinos Imaging Center at the McGovern Institute at MIT. He is an Investigator at the Institute, with faculty appointments in the Department of Brain and Cognitive Sciences and the Harvard-MIT Division of Health Sciences and Technology, where he holds the Grover Hermann Professorship. He also has appointments in the Department of Psychiatry at Massachusetts General Hospital and the Harvard Graduate School of Education, and is the Director of the MIT Integrated Learning Initiative. Prior to joining MIT, he spent 14 years at Stanford University in the Department of Psychology and Neurosciences Program.
Thank you for sharing this wonderful information
What did you mean with “And with every passing grade, they become less helpful to students.”? Do you think that every student who receives intervention after second grade will be deemed being left behind their peers? Thank you for your answer
The interventions that are well documented to help poor readers focus on single-word decoding, which is knowledge about letter-sound relationships. Children in the first few years of school focus a lot on learning to decode print. In subsequent years, children spend more time on gaining skills in reading connected text – learning to read fluently for comprehension and gaining knowledge about vocabulary and the world. Therefore, the interventions that help single word decoding are most helpful when provided in the early grades. Children vary in their specific needs, and better decoding may be helpful at any age, but the evidence is that offering decoding help in early grades has the most impact.
Also, the longer you wait for help, the further you fall behind. This means the mountain you have to climb to get back to or pass ‘normal’ gets bigger and bigger the longer you wait.
When I (teacher) shared this information with my principal a few years ago (suggesting we use appropriate interventions in K/1), I was ignored at first and then put off. We need this information in every School Board office in order to exert pressure at state levels because the schools of education turn a blind eye toward this research. They do this because it does not jive with their favored instructional approaches i.e. Balanced Literacy. In other words, this is an inconvenient truth for the schools that train teachers and administrators .
Would you kindly share that situation on the FB of Dyslexia Inspired. We are a global community dedicated to awareness about dyslexia . We are a free, volunteer group that shares information on the well-being of struggling learners. Thank you kindly
As a teacher educator in New Jersey, I couldn’t disagree more with this comment. I believe Schools of Education are very aware of the need to inform teacher candidates about phonological awareness assessment and systematic phonics instruction, as well as instructional intervention for children who struggle, all within a balanced literacy paradigm.
I loved teaching 5th grade in a public school that didn’t use a fail first policy before helping kids. Every week the three fifth grade teachers would meet with one of the special ed teachers who would sad I us if anyone was falling behind. We could send them down the hall to, when we were teaching that subject, until they got caught up. The teachers loved teaching, and the kids loved learning. That was 45 years ago. I had no idea how lucky I was. They may never get caught up if we wait until they develop “a failure identity” and distrust for those who try to help.
Thank you for helping me understand how two of my three daughter’s brains work! Self esteem is VITAL; my eldest is now at university studying Chemical Engineering and doing very well through sheer hard work and determination. She couldn’t read in any fluent functional capacity until she was 10. She now devours books and reads for pleasure. We have our fingers crossed that her youngest sister will continue to flourish too, although it is tough and (as a teacher myself) many schools simply don’t get it. These children often have amazing and quirky qualities that are not always measured or appreciated by the education system. Thank you.
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[…] The inner workings of the dyslexic brain. Now there is this broad consensus that the most common reason for reading difficulties actually has to do with the processing of spoken language. Some children process spoken language in a way that makes it hard for them to grasp what is called phonological awareness, a skill that allows one to consciously or explicitly understand that a word is made of multiple sounds. […]
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The difficulty recognizing faces is interesting. I thought that skill was more related to right hemisphere function. Is it more connecting the face with a name? Or purely indicating or acknowledging difference in faces?
What is the best reading intervention for students after 2nd grade? Specifically, what reading intervention programs are out there that school districts could implement and what specific assessments are available to help schools to identify these students?
Among the various dyslexic groups I’ve been part of, the Orton-Gillingham Approach has been widely lauded as the best possible method for teaching dyslexic children of any age. I’d like to add a couple of unconventional approaches which I (dyslexic mom homeschooling a dyslexic daughter) have used to great effect: Video games (particularly story-based games with character conversations in text rather than voiced – I’ve had great luck with Squaresoft’s “Final Fantasy 6” title) and comic books. These two vectors have a reduced amount of reading combined with visual stimulation that keeps the student’s interest for longer than she would have focused on a textbook. My daughter was diagnosed at age seven and now, at age nine, she is reading chapter books (Ramona and various Judy Blume offerings).
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