Attention-Deficit Hyperactivity Disorder Clinical Trial
Official title:
Working Memory Training in Attention-Deficit/Hyperactivity Disorder: Neural Mechanisms of Change
The overall objective of the current study is to determine whether computerized Working
Memory (WM) training will enhance WM capacity in college students with Attention Deficit
Hyperactivity Disorder (ADHD). There are also four additional objectives. The first is to
investigate whether the program's efficacy is impacted by the duration of the daily training
sessions. The second is to determine whether improvements in WM will generalize to secondary
outcome tasks, such as inhibitory control and planning. The third objective is to examine
whether WM training will also ameliorate ADHD symptoms of inattention and hyperactivity. The
last objective is to investigate whether improvements will be maintained at a two month
follow-up period. The investigators will also be assessing healthy control participants,who
will not be receiving treatment, but will be used as a basis of comparison with the ADHD
participants,
It is expected that the computerized WM training program will enhance WM capacity in college
students with ADHD. In addition, it is believed that these increases in WM capacity will
also lead to improvements in other executive functions. It is also hypothesized that WM
training will lead to a reduction in ADHD symptomology. Lastly, these improvements should be
maintained at three month follow-up.
Attention-Deficit/Hyperactivity Disorder (ADHD) and Learning Disability (LD) are among the
most common neurobehavioural disorders, with prevalence rates estimated at about 5% to 9% .
Approximately 4% of youth in the United States have a comorbid diagnosis of ADHD and a
Learning Disability (ADHD/LD). Research has shown ADHD/LD symptoms persist into young
adulthood, a time when many are enrolled in post-secondary education. Students with ADHD/LD
at the post-secondary education level constitute an emergent subgroup of the ADHD and LD
populations that have received far less attention in the literature compared to children,
adolescents and employed adults. The actual percentage of college students with ADHD/LD is
unknown; however, some estimates suggest that 2-8% of students attending post secondary
education have ADHD, LD or both. Youth with the additive problems of both disorders are at
high risk for academic failure, and poor psychosocial and occupational outcomes in
adulthood. The "multiple deficit model" suggests that there is a common genetic and
neuropsychological underpinning to these disorders. For example, ADHD and LD share similar
features, such as core deficits in processing speed and working memory. ADHD and LD are each
associated with several cognitive difficulties including poor working memory (WM) and
processing speed. WM is a "mental workspace" that provides temporary storage and
manipulation of information and is closely related to g, a proposed measure of general
cognitive ability. In addition, WM has also been found to predict academic achievement. One
major problem is that current intervention approaches for ADHD/LD do not target the
underlying cognitive deficits fundamental to these diagnoses. Thus, interventions that
address underlying cognitive difficulties, such as WM, are a promising avenue of additional
treatment for youth with combined ADHD/LD.
WM capacity has generally been thought to be a fixed trait, but recent studies have
suggested that it can be improved by intensive and adaptive computerized training. This
intervention approach has been evaluated in children and adolescents with ADHD, older
adults, and adult stroke patients and shown promising results. Subjects not only improved on
the trained WM tasks, but some of the studies suggest that improvements may generalize to
non-trained WM activities, complex reasoning tasks, academic functioning, and behavioral
symptoms of ADHD or working memory failure. Moreover, brain imaging studies have provided
converging evidence of training-related improvements in working memory: specifically
increased activation has been found in cortical regions implicated in working memory.
However, no studies to date have investigated whether WM capacity can be improved in a
population of young adults with ADHD/LD enrolled in post-secondary education programs. Nor
have the results been replicated or elaborated upon using different imaging methodologies,
like EEG (Electroencephalography), which is able to capture the millisecond time parameters
of cognitive processing and so may provide new insights into the neural mechanism of WM and
effects of WM training.
The overall objective of the current study is to determine the effectiveness of WM training,
as administered by community-based psychologists licensed to provide this training, for
college students with ADHD/LD. Specific objectives are to determine whether; i)
standard-length computerized WM training enhances WM capacity in college students with
ADHD/LD, using behavioral as well as neuro-imaging indices of change; ii) shortened-length
WM training would also result in improvements in WM; iii) WM training normalizes WM
performance, as compared to typically developing peers (i.e., a healthy comparison group of
college students); iv) improvements in WM will generalize to secondary outcome tasks, such
as inhibitory control and planning; v) WM training will also ameliorate ADHD symptoms of
inattention and hyperactivity; and vi) improvements will be sustained for at least a few
months after completing the training.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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