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Sound training rewires dyslexic children's brains for reading
October 31, 2007Some children with dyslexia struggle to read because their brains aren't properly wired to process fast-changing sounds, according to a brain-imaging study published this month in the journal Restorative Neurology and Neuroscience (online October 16). The study found that sound training via computer exercises can literally rewire children's brains, correcting the sound processing problem and improving reading. According to the study's first author, Nadine Gaab, PhD, of the Laboratory of Cognitive Neuroscience at Children's Hospital Boston, the finding may someday help clinicians diagnose dyslexia even before reading begins, and suggests new ways of treating dyslexia, such as musical training.
Children with developmental dyslexia confuse letters and syllables when they read. The idea that they may have an underlying problem processing sound was introduced by Paula Tallal, PhD, of Rutgers University in the 1970s, but it has never been tested using brain imaging. Gaab used functional MRI imaging (fMRI) to examine how the brains of 9- to 12-year old children with developmental dyslexia, and normal readers, responded to sounds, both before and after using educational software called Fast ForWord Language, designed in part by Tallal, a co-author on the study.
Gaab first tested how the children's brains responded to two types of sounds: fast-changing and slow-changing. These sounds were not language, but resembled vocal patterns found in speech. As Gaab watched using brain fMRI, the children listened to the sounds through headphones. The fast-changing sounds changed in pitch or other acoustic qualities quickly-over tens of milliseconds-as in normal speech. By contrast, slow-changing sounds changed over only hundreds of milliseconds.
In typical readers, 11 brain areas became more active when the children listened to fast-changing, compared to slow-changing, sounds. Gaab set this as "normal." In dyslexic children, the fast-changing sounds didn't trigger this ramped-up brain activity. Instead, dyslexic children processed the fast-changing sounds as if they were slow-changing-using the same brain areas, at the same lower intensity. "This is obviously wrong," says Gaab.
Infants must correctly process fast-changing sounds, like those within the syllable "ba," in order to learn language and, later, to know what printed letters sound like. Infants use sound processing to grab from speech all the sounds of their native language, then stamp them into their brains, creating a sound map. If they can't analyze fast-changing sounds, their sound map may become confused.
"Children with developmental dyslexia may be living in a world with in-between sounds," says Gaab. "It could be that whenever I tell a dyslexic child 'ga,' they hear a mix of 'ga,' 'ka,' 'ba,' and 'wa'."
Reading trouble may develop when these children first see printed letters, Gaab and cognitive scientists believe, because at this stage, the children's brains wire their internal sound map to letters they see on the page. Linking normal letters to confused sounds may lead to syllable-confused reading.
But the brains of the children with dyslexia changed after completing exercises in a computer program known as Fast ForWord Language (Scientific Learning, Oakland, CA). The exercises involved no reading-only listening to sounds, starting with simple, changing noises, like chirps that swooped up in pitch. The children then had to respond-clicking to indicate, for instance, whether the chirp's pitch went up or down. The sounds played slowly at first-an easy task for the dyslexic children-but gradually sped up, becoming more challenging. The exercises then repeated with increasingly complex sounds: syllables, words, and finally, sentences.
The repetitive exercises appeared to rewire the dyslexic children's brains: after eight weeks of daily sessions-about 60 hours total-their brains responded more like typical readers' when processing fast-changing sounds, and their reading improved. It's unclear, though, whether the improvement lasts beyond a few weeks, since follow-up tests were not done.
Brain imaging study in preschoolers
Gaab has begun recruiting for a new study of preschoolers whose family members have dyslexia. By looking for sound-processing problems on brain fMRI, she hopes to catch dyslexia at an early stage, before the children begin learning to read-and then remediate it through sound training, sparing them from years of frustration and low self-esteem later in life.
She will also investigate what other types of sound training might help dyslexic children. Learning to sing or play an instrument, for example, involves gradual, repetitive, and intense listening and responding to fast-changing sounds.
"We've done a few studies showing that musicians are much better at processing rapidly changing sounds than people without musical training," says Gaab. "If musicians are so much better at these abilities, and you need these abilities to read, why not try musical training with dyslexic children and see if that improves their reading"
Children's Hospital Boston
In typical readers, 11 brain areas became more active when the children listened to fast-changing, compared to slow-changing, sounds. Gaab set this as "normal." In dyslexic children, the fast-changing sounds didn't trigger this ramped-up brain activity. Instead, dyslexic children processed the fast-changing sounds as if they were slow-changing-using the same brain areas, at the same lower intensity. "This is obviously wrong," says Gaab.
Infants must correctly process fast-changing sounds, like those within the syllable "ba," in order to learn language and, later, to know what printed letters sound like. Infants use sound processing to grab from speech all the sounds of their native language, then stamp them into their brains, creating a sound map. If they can't analyze fast-changing sounds, their sound map may become confused.
"Children with developmental dyslexia may be living in a world with in-between sounds," says Gaab. "It could be that whenever I tell a dyslexic child 'ga,' they hear a mix of 'ga,' 'ka,' 'ba,' and 'wa'."
Reading trouble may develop when these children first see printed letters, Gaab and cognitive scientists believe, because at this stage, the children's brains wire their internal sound map to letters they see on the page. Linking normal letters to confused sounds may lead to syllable-confused reading.
But the brains of the children with dyslexia changed after completing exercises in a computer program known as Fast ForWord Language (Scientific Learning, Oakland, CA). The exercises involved no reading-only listening to sounds, starting with simple, changing noises, like chirps that swooped up in pitch. The children then had to respond-clicking to indicate, for instance, whether the chirp's pitch went up or down. The sounds played slowly at first-an easy task for the dyslexic children-but gradually sped up, becoming more challenging. The exercises then repeated with increasingly complex sounds: syllables, words, and finally, sentences.
The repetitive exercises appeared to rewire the dyslexic children's brains: after eight weeks of daily sessions-about 60 hours total-their brains responded more like typical readers' when processing fast-changing sounds, and their reading improved. It's unclear, though, whether the improvement lasts beyond a few weeks, since follow-up tests were not done.
Brain imaging study in preschoolers
Gaab has begun recruiting for a new study of preschoolers whose family members have dyslexia. By looking for sound-processing problems on brain fMRI, she hopes to catch dyslexia at an early stage, before the children begin learning to read-and then remediate it through sound training, sparing them from years of frustration and low self-esteem later in life.
She will also investigate what other types of sound training might help dyslexic children. Learning to sing or play an instrument, for example, involves gradual, repetitive, and intense listening and responding to fast-changing sounds.
"We've done a few studies showing that musicians are much better at processing rapidly changing sounds than people without musical training," says Gaab. "If musicians are so much better at these abilities, and you need these abilities to read, why not try musical training with dyslexic children and see if that improves their reading"
Children's Hospital Boston
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