Computer Training and Transcranial Direct Current Stimulation for Cognition in HIV
Status: | Recruiting |
---|---|
Healthy: | No |
Age Range: | 50 - Any |
Updated: | 3/15/2019 |
Start Date: | January 16, 2018 |
End Date: | November 2020 |
Contact: | Rosemary L Davenport, ARNP |
Email: | rd667@nova.edu |
Phone: | 954-262-1804 |
This study investigates the effectiveness of computer-based cognitive training with or
without transcranial direct current stimulation (tDCS) in improving the functioning of older
individuals with HIV-related cognitive dysfunction.
without transcranial direct current stimulation (tDCS) in improving the functioning of older
individuals with HIV-related cognitive dysfunction.
In spite of advances in its treatment, persons with HIV continue to develop HIV-associated
neurocognitive disorders (HAND) over time. HAND may be an even more significant problem in
older persons (age 50+) with HIV who may experience age-related changes in cognition in
addition to HAND. Because of HAND's impact on patients' functioning and quality of life,
treatments are needed. Pharmacologic treatments have, in general, been ineffective and
investigators have argued that computer delivered cognitive training may be an effective
alternative. While results of small studies have been encouraging, the effect size of
cognitive training may be small and of unclear practical importance. The nature of cognitive
training programs, often building on laboratory measures of cognition, may reduce how
inherently interesting (i.e., fun) they are, limiting their uptake outside of paid research
studies. Others have argued for the use of computer games targeting psychomotor speed,
problem solving, and visuospatial skills to improve cognitive function in older adults. Data
support the utility of this approach, but again effect sizes may be small.
Transcranial direct current stimulation (tDCS) may be an effective way to enhance the effects
of cognitive training. It involves the application of a small electric current (1-2 mA) to
the head, inducing small currents within the brain that enhance cognitive training. Multiple
studies have shown that tDCS enhances cognition, including attention and psychomotor speed.
The investigators previously completed a single-blind pilot study of individuals with
HIV-related mild neurocognitive disorder using a high-interest car racing game with or
without tDCS. Results were encouraging in showing moderate to large effect sizes consistent
with tDCS enhancement of cognitive function after six 20-minute training sessions over two
weeks. Participants' subjective reports of cognitive difficulties supported observed effects
on objective measures, and their mood improved. The intervention was acceptable to
participants, many of whom stated they enjoyed it. Everyone indicated a willingness to
participate in a similar study in the future.
In this study the investigators will expand on a pilot-tested training intervention with 120
individuals randomly assigned to an attention control condition or game-based cognitive
training with either sham or active tDCS. The investigators will employ a battery of
cognitive measures as well as self-report measures of mood, cognitive difficulties, and
everyday functioning in order to evaluate the effects of study interventions.
Participants will first be screened for eligibility by telephone, and then scheduled for a
visit during which their eligibility will be further assessed. Those who are eligible based
on inclusion and exclusion criteria will complete a battery of measures of their cognitive
and functional status. They will then complete six training sessions over a period of three
weeks, and then once again complete the battery of assessments. Participants will then be
asked to return one month after the post-training assessment to evaluate the persistence of
training effects.
neurocognitive disorders (HAND) over time. HAND may be an even more significant problem in
older persons (age 50+) with HIV who may experience age-related changes in cognition in
addition to HAND. Because of HAND's impact on patients' functioning and quality of life,
treatments are needed. Pharmacologic treatments have, in general, been ineffective and
investigators have argued that computer delivered cognitive training may be an effective
alternative. While results of small studies have been encouraging, the effect size of
cognitive training may be small and of unclear practical importance. The nature of cognitive
training programs, often building on laboratory measures of cognition, may reduce how
inherently interesting (i.e., fun) they are, limiting their uptake outside of paid research
studies. Others have argued for the use of computer games targeting psychomotor speed,
problem solving, and visuospatial skills to improve cognitive function in older adults. Data
support the utility of this approach, but again effect sizes may be small.
Transcranial direct current stimulation (tDCS) may be an effective way to enhance the effects
of cognitive training. It involves the application of a small electric current (1-2 mA) to
the head, inducing small currents within the brain that enhance cognitive training. Multiple
studies have shown that tDCS enhances cognition, including attention and psychomotor speed.
The investigators previously completed a single-blind pilot study of individuals with
HIV-related mild neurocognitive disorder using a high-interest car racing game with or
without tDCS. Results were encouraging in showing moderate to large effect sizes consistent
with tDCS enhancement of cognitive function after six 20-minute training sessions over two
weeks. Participants' subjective reports of cognitive difficulties supported observed effects
on objective measures, and their mood improved. The intervention was acceptable to
participants, many of whom stated they enjoyed it. Everyone indicated a willingness to
participate in a similar study in the future.
In this study the investigators will expand on a pilot-tested training intervention with 120
individuals randomly assigned to an attention control condition or game-based cognitive
training with either sham or active tDCS. The investigators will employ a battery of
cognitive measures as well as self-report measures of mood, cognitive difficulties, and
everyday functioning in order to evaluate the effects of study interventions.
Participants will first be screened for eligibility by telephone, and then scheduled for a
visit during which their eligibility will be further assessed. Those who are eligible based
on inclusion and exclusion criteria will complete a battery of measures of their cognitive
and functional status. They will then complete six training sessions over a period of three
weeks, and then once again complete the battery of assessments. Participants will then be
asked to return one month after the post-training assessment to evaluate the persistence of
training effects.
Inclusion Criteria:
- Treated with antiretroviral medication for at least one month
- Meet criteria for Mild Neurocognitive Disorder
Exclusion Criteria:
- Seizure disorder
- Recent head injury or surgery
- Personal or family history of bipolar disorder;
- Some medications
- Left handedness
- HIV Dementia
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