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A neuronal short circuit
As the sperm turns, success
Et cetera
A closer look at clot-busters
Cats and the pregnant woman
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Brain scans reveal disruption in the neural circuitry
of children with dyslexia
Using functional magnetic resonance imaging (fMRI), researchers led by
a husband-and-wife team at Yale have found a neuronal short circuit in
dyslexic children and identified an area of the brain that is linked to
skilled reading. Their finding builds on a previous study that linked
poor reading in adults with dyslexia to a specific region in the brain.
“Because this finding coincides with findings in adults, it shows
dyslexia is persistent,” said Sally E. Shaywitz, M.D., professor
of pediatrics with an appointment in the Child Study Center and co-author
of the study. “It shows there is an urgency for early intervention.
And we were able to identify an area of the brain that correlates with
skilled reading, the word-form area in the back of the left side of the
brain.”
Shaywitz and her husband, Bennett A. Shaywitz, M.D., professor of pediatrics
and neurology with an appointment in the Child Study Center, found that
neural circuits in the word-form area, also known as the occipito-temporal
area, are disrupted in children with dyslexia.
“By seeing the disruption on brain imaging it says to us as physicians
and scientists that dyslexia is as real an entity as any other medical
disorder,” said Bennett Shaywitz, co-principal investigator of the
study and lead author of the paper in the July 15 issue of Biological
Psychiatry. Also contributing to the work was John C. Gore, Ph.D.,
now at Vanderbilt University.
This study follows one in 1998 in which the Shaywitzes and colleagues
found a disruption in posterior neural systems for reading in the brains
of dyslexic adults. That finding begged a key question. “We did not
know if this disruption was just the end result of years of poor reading
or if it was there from the beginning of the time a child should be able
to read, which is around 6 or 7 years old,” said Sally Shaywitz.
The team used fMRI to scan the brains of 70 dyslexic readers and 74 nonimpaired
readers ages 7 to 18 while they performed reading tasks with real words
and “pseudowords,” made-up words that the children were asked
to pronounce. The tasks mimicked the problems dyslexic children face in
sounding out words. The team found evidence of a functional disruption
of the neural systems involved in skilled reading, confirming the hypothesis
that the defect is present at a young age.
“We believe dyslexic children are born with this disruption,”
Bennett Shaywitz said.
The nature and cause of the disruption are not clear. “That’s
the next step,” he said. With colleagues at Yale, he’s using
magnetic resonance spectroscopy to study brain cells in the region that
is disrupted.
According to the Shaywitzes, about one in five children has dyslexia,
which affects children without regard to level of intelligence. Typically,
dyslexics compensate by using other parts of the brain to read.
“Instead of being able to develop systems in the back of the brain
they develop systems in the front of the brain, but it is very laborious,”
said Sally Shaywitz. “It’s not that they don’t learn to read at all,
but it’s harder to read.”
Although symptoms appear as soon as children start to read, most dyslexic
children are not diagnosed until they’re in the third grade, she said.
“There is absolutely no question that the earlier a child is identified,
the more difference you can make,” she said, adding that early placement
in preventive and remedial programs can help children with dyslexia. The
programs use exercises, games and rhymes to help dyslexic children break
up words into their individual parts. “If you start at the beginning
you can have a good chance of helping that child in an efficient way.
What we think—and we have some evidence to support this—is that
we can help the area of the brain that is disrupted.”
—John Curtis
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As the sperm turns, success
Although intracytoplasmic sperm injection—in which a single sperm
is placed inside a mature egg—increases the chances of a successful
pregnancy, it also carries a risk of genetic abnormalities in children.
Now two Yale scientists have devised a method for selecting genetically
healthy sperm to lower those odds. Gabor B. Huszar, M.D., HS ’76, and
Attila Jakab, M.D., found that healthy sperm develop a receptor that recognizes
an acid in the female reproductive tract; they then devised a method of
using the acid to identify the most robust candidates. Huszar and Jakab
presented their work at the European Society of Human Reproduction and
Embryology’s June meeting in Vienna.
—John Curtis
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Et Cetera
A closer look at clot-busters
Clot-busting drugs are almost always administered to stroke patients
incorrectly, sometimes with serious consequences, according to a recent
Yale study.
Researchers reviewed the medical records of 63 patients who received thrombolytic
therapy between 1996 and 1998. They found departures from recommended
practice 97 percent of the time. “Major deviations from protocol
were present in two-thirds of the cases and were associated with serious
or fatal consequences,” said Dawn M. Bravata, M.D., principal investigator
of the study published in the Archives of Internal Medicine.
Errors ranged from incorrect dosages and delays in administering the drugs
to giving them to at-risk patients. Responsibility for the drugs’ misuse
was widespread, the study found, and detours from protocol occurred all
along the heath care pathway. Why? “It’s a hard drug to give properly,”
Bravata said. “It’s not something doctors do every day.”
—Jennifer Kaylin
Cats and the pregnant woman
There’s good news and bad news for pregnant women who live with cats.
On the up side, they face little risk of contracting toxoplasmosis from
their feline companions. On the other hand, there’s one less reason to
avoid cleaning the litter box.
Jeffrey D. Kravetz, M.D., an assistant clinical professor of medicine
who has two cats, decided to review the literature about cat-related diseases
after his wife became pregnant. He found that casual contact with a cat
does not put a woman’s unborn child at risk. “It’s never been proven
that toxoplasmosis (an infection that can cause miscarriages or damage
to fetuses) comes from direct cat contact,” he said. According to
Kravetz it’s much more likely a woman will get the infection by eating
undercooked meat or digging with bare hands in contaminated soil.
Kravetz, whose review article appeared in the Archives of Internal
Medicine in September, advises pregnant women who must change a litter
box to do so daily, wear gloves and wash their hands afterwards. “Basically,
use common sense and don’t worry,” he said.
—Jennifer Kaylin
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