A new study has revealed that important areas for language and working memory involved in reading are linked differently in dyslexic children.
A new study has revealed that important areas for language and working memory involved in reading are linked differently in dyslexic children as compared to their counterparts who are good readers and spellers.
But, after the children with dyslexia underwent a three-week instructional program, their patterns of functional brain connectivity became normal and were alike to those of good readers when determining if sounds went with groups of letters in words.“Some brain regions are too strongly connected functionally in children with dyslexia when they are deciding which sounds go with which letters,” said Todd Richards, a UW neuroimaging scientist and lead author of the study.
“We had hints in previous studies that the ability to decode novel words improves when a specific brain region in the right hemisphere decreases in activation. This study suggests that the deactivation may result in a disconnection in time from the comparable region in the left hemisphere, which in turn leads to improved reading. Reading requires sequential as well as simultaneous processes,’ Richards said.
Richards and co-author Virginia Berninger, a neuropsychologist, said temporal connectivity, or the ability of different parts of the brain to “talk” with each other at the same time or in sequence, is a key in overcoming dyslexia. Berninger, who directs the UW’s Learning Disabilities Center, compared dyslexia to an orchestra playing with an ineffective conductor who does not keep all the musicians playing in synchrony with each other.
“You have all of the correct instruments but, if the conductor is not doing his or her job of coordination, the right instruments are playing at the wrong time,” she said. “This all goes away once the conductor finds a way to signal to the musicians to play at the proper times.”
The UW researchers used functional Magnetic Resonance Imaging, or fMRI, to explore brain connectivity. This type of imaging typically shows which parts of the brain are activated but does not indicate how they are connected. However, software developed by Richards, a professor of radiology, enabled the researchers to see brain activity in a specific region, the left inferior front gyrus. This region may serve as the “orchestra conductor” for language. The software also provided a look at how this brain area was connected to a similar region in the right hemisphere. The software and the focus on language centres allowed the researchers to collect data that was not related to the children’s heartbeat or breathing.
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The children had to judge whether groups of pink highlighted letters in pairs of nonsense words could or could not represent the same sound. For example, the letters ea and ee in “pleak” and “leeze” could have the same sound but the ea and eu in “pheak” and “peuch” could not. The children’s brains were scanned and then those with dyslexia participated in a three-week program that taught the children the code for connecting letters and sounds with an emphasis on timing. Then the children’s brains were scanned again.
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“These results might mean that after special teaching the children with dyslexia activated letters in written words first and then switched to sounds in spoken words rather than simultaneously activating both letters and sounds,” said Richards.
“The overconnection between the language conductor and working memory at the same time may be a signal that working memory is overtaxed. When language processing is more efficient after treatment, working memory does not have to work as hard,” Richards added.
“There is this myth that English is an irregular language. That’s not true. We have a set of alternative ways of spelling the same sounds but this not taught explicitly. The way phonics is often taught over focuses on single letters and not the letter groups that go with sounds as well. Teaching children with dyslexia to read requires a different approach, one that stresses knowledge of spelling-sound relationships with a twist that tweaks the letter and sound processes to get connected in time in the brain,” added Berninger.
The researchers caution that the intervention treatment is not a cure for dyslexia. They said it makes children better readers during specialized instruction, but has not been proven over a long period of time, something they hope to do in the future.
“We have shown that gains can maintain for up to two years with behaviour measures, but much research is needed before it can be demonstrated that functional brain connectivity can be maintained,” said Berninger.
The study is published in the current issue of the Journal of Neurolinguistics.
Source-ANI
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