As I read research about
math learning disabilities, I feel a growing sense of frustration at the ways
children are classified into research groups such as "math learning
disabled", "low achievers in math who are not learning disabled"
and "children with typical math achievement". In each study, children are classified into
these groups by entirely different criteria.
Moreover, many times there's no published data to support group
classification. As a result, it's difficult
to reach reasonable conclusions about the existence of differences between
these three groups and the reasons for these differences.
The following research
is an example of that:
van
Garderen, D., Scheuermann, A., & Poch, A. (2014).Challenges
students with learning disabilities experience when using diagrams as a
visualization tool to solve mathematics word problems. ZDM.
The International Journal on Mathematics Education, 46, 135-
This study deals
with a very interesting subject: differences between children with learning
disabilities and children with high math achievement in the ability to use
diagrams for problem solving in math.
Lack of meticulousness (as I see it)
in the classification of children into research groups makes it hard to
draw conclusions from this study. That's
why I'll focus here on group classification and not on the research findings.
This is a
qualitative research with a small sample, but it demonstrates fundamental problems I see also
in quantitative studies with large samples.
The study compared a
group of 16 students who had been diagnosed as learning disabled (LD) to a
group of 12 students who were high achievers in math. All children were in forth to ninth
grade. The authors write: "Students with LD met their local
district eligibility criteria and had a full-scale IQ score of 80 or higher on
the WISC – IV (2003). The students with LD did not have to have a specific
mathematics learning disability to participate.
However; all students with LD were lower achieving in mathematics than
their peers without LD."
This raises a few
questions:
What were the
criteria for learning disabilities that these students met? The criteria are
not published in the paper. Since
criteria for learning disability often change, it's important to publish them
so the reader will understand the group's characteristics.
The full scale IQ
score – since children with an IQ of 80 (which is equivalent to the 9th
percentile) were included in this group, it's hard to say that it's a group
that includes only children with (at least) average IQ. (an IQ score of 85 and above is
considered an average (or above average)
IQ score, since 85 is a score lower than average by one standard
deviation). Admittedly, it's better not
to use the full scale IQ score for learning disability identification,
but when using the discrepancy model, it's best to have in the learning
disability group children who have IQ scores of 85 and above.
Since no requirement
for specific math learning disability was required (it's not clear why), the
authors did not ascertain that the "LD" group had significantly low
achievement in math (for example, math scores that are one standard deviation
and more below the mean, or that fit a grade level that is 2 grades below the
student's grade level). The authors
write: "All students with LD were
lower achieving in mathematics than their peers without LD", but it's
unclear whether they had significantly low achievement or were achieving in the
low end of the average range, for example.
The LD group
apparently had learning disabilities in reading, and that must have been the
main or common reason for their LD diagnosis, but this raises the question
whether their reading achievement was
significantly below average. This is
especially important in research dealing with word problems, in which reading
plays an important part. Although the problems
were read to the students, obviously children with reading difficulties rely
more on their working memory to keep in mind the problem's details, compared with
children who are good readers and can reread the problems. No data is given in the study about the LD children's
reading level.
The high math
achievement group's reading level is also not reported. This is important as they are being compared with children who
(probably) have LD that manifests in reading difficulties. The authors didn't make sure that the high
math achievement group did not have LD that manifests in reading.
This is one example
of many of the frustrating situation with research in the LD field.
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