Childhood Disorders 645
Brain Systems
In most forms of dyslexia, the brain systems involved in auditory processing do not
function as they should (Marshall et al., 2008; Ramus et al., 2003). For example,
one study used electrodes placed on the scalp to examine the brain waves of infants
while they listened to syllables coming out of a speaker. Eight years later, the chil-
dren’s reading abilities were assessed, and the children classifi ed as dyslexic, poor
readers, or normal readers. The children who were classifi ed as dyslexic at 8 years
old had brain-wave patterns in infancy (while they listened to spoken syllables) that
were different from those of the children whose reading ability was classifi ed as
normal, which suggests that the children with dyslexia were born with processing
problems in the auditory system (Molfese, 2000). Further research has suggested
that these brain-wave differences continue at least through the fi rst 4 years of life
(Espy et al. 2004).
The results of many neuroimaging studies have converged to identify a set of brain
areas that is disrupted in people who have dyslexia (Shaywitz, Lyon, & Shaywitz,
2006). First, two rear areas in the left hemisphere are not as strongly activated during
reading tasks in people with dyslexia as they are in people who read normally. One of
these areas, at the junction of the parietal and temporal lobes, appears to be involved
in converting visual input to sounds (Friedman, Ween, & Albert, 1993). The other
area, at the junction of the parietal and occipital lobes, appears to be used to recognize
whole words, based on their visual forms (Cao et al., 2006; McCandliss, Cohen, &
Dehaene, 2003). Moreover, these areas are not activated normally even in young chil-
dren with dyslexia, and thus the malfunction observed in adults cannot be a result
of not reading properly over the course of many years but probably contributes to
reading disorder (Shaywitz et al., 2002). Second, two other brain areas (the bottom
part of the frontal lobe and the right occipital-temporal region) are more activated in
people with a reading disorder than in people who read normally. These areas appear
to be used in carrying out compensatory strategies, which rely on stored information
instead of the usual vision-sound conversion process.
Consistent with the neuroimaging results, researchers have also reported struc-
tural differences between the brains of people with dyslexia and normal readers.
Compared to people who read normally, people with dyslexia have reduced gray
matter (which includes the cell bodies of neurons) in the temporal lobes, particu-
larly the left temporal lobe (Vinckenbosch, Robichon, & Eliez, 2005), and portions
of their frontal lobes are relatively large (Vinckenbosch, Robichon, & Eliez, 2005;
Zadina et al., 2006). Moreover, people who have relatively large occipital lobes
(which are specialized for vision) tend to read better than those with smaller occipi-
tal lobes (Zadina et al., 2006); this difference may suggest that at least some people
with dyslexia have impaired visual abilities. (Fine et al., 2007).
However, the precise brain areas involved in dyslexia are infl uenced by culture,
as manifested by the language spoken in a society. Specifi cally, part of the left fron-
tal lobe is impaired in dyslexic children who speak Chinese, instead of the areas
just discussed (which were assessed in English-speaking children). Chinese writing
does not depend on an alphabet, but instead requires memorizing specifi c characters
that correspond to words (Siok et al., 2004). The frontal lobes are involved in using
stored information to help register current stimuli, and such processing may play a
large role in reading Chinese characters.
At least some forms of dyslexia also appear to reflect a specific problem in
processing visual stimuli—independent of problems in connecting those stimuli to
sounds—which may be why some people with dyslexia reverse letters when they
write (Vidyasagar, 2005). Thus, fi ndings regarding brain systems suggest that there
are probably different forms of dyslexia, with different underlying causes.
Genetics
Reading disorder, and possibly the other learning disorders, are moderately to
highly heritable (Hawke, Wadsworth, & DeFries, 2006; Schulte-Körne, 2001), and
at least four specifi c genes are thought to affect the development of these disorders
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