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EMBARGOED FOR RELEASE UNTIL 4 PM ET, July 21, 2003

Short-term Dyslexia Treatment Strengthens Key Brain Regions

St. Paul, Minn. – After only three weeks of reading instruction, brain scans in children with dyslexia develop activation patterns that match those of normal readers, according to a new study published in the July 22 issue of Neurology, the scientific journal of the American Academy of Neurology. These findings indicate that children with dyslexia use the same regions of their brains as other readers, and that specialized instruction can rapidly compensate for some types of reading deficits. Dyslexic children in this study had above average intelligence but scored approximately 30 percent lower than average on standard reading tests. The dyslexic children and a group of good readers of the same age underwent functional magnetic resonance imaging (fMRI) to map their brain activation patterns during two types of reading tests. The children with dyslexia then received a three-week training program based on principles outlined by the National Reading Panel (www.nationalreadingpanel.org), convened by the National Institute of Child Health and Human Development. Both groups of children then underwent a second brain scan. The experiment was conducted during the summer, to avoid confounding effects from school instruction. The reading tests during the brain scan measured the ability of the children to decide whether certain letter combinations could stand for certain sounds (for example, could “ow” and “oa” make the same sound?) and whether certain letter patterns in words created meaningful relationships between words (for example, does the “er” in “builder” make it related to the word “build”? does the “er” in “corner” make it related to the word “corn”?). Both skills are key elements of the reading process. Both dyslexic children and normal readers used the same specific parts of their brains to perform these tasks, says lead study author Elizabeth Aylward, PhD, with the department of radiology at the University of Washington in Seattle. However, the activation of these regions was much weaker in dyslexic children, reflecting their poorer performance on these tasks. After the three-week reading program the levels of brain activation were essentially the same in the two groups. Aylward says these results indicate that instruction doesn’t “rewire” the brain of the dyslexic child, but instead strengthens the normal circuits which are already in use. One of the most encouraging results of the study, she says, is that “we can document changes in the brain even after a fairly short training period,” suggesting that appropriate in-school training has great potential for improving the reading ability of dyslexic children. Reading and spelling disabilities, which occur despite normal intelligence, affect 10 to 15 percent of school-age children in the United States. Early diagnosis and proper instruction significantly improve the dyslexic child’s reading achievement outcome. More background on dyslexia including initial steps toward identifying it in a child, how it may be treated, and additional resources can be found in Neurology’s “Patient Page” at www.neurology.org. The research was supported by a grant from the National Institute of Child Health and Human Development.

The American Academy of Neurology, an association of more than 27,000 neurologists and neuroscience professionals, is dedicated to promoting the highest quality patient-centered neurologic care. A neurologist is a doctor with specialized training in diagnosing, treating and managing disorders of the brain and nervous system such as Alzheimer’s disease, stroke, migraine, multiple sclerosis, concussion, Parkinson’s disease and epilepsy.

For more information about the American Academy of Neurology, visit http://www.aan.com or find us on Facebook, Twitter, Google+ and YouTube.


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