Characterizing and Predicting Drug Effects on Cognition
Status: | Recruiting |
---|---|
Conditions: | Cognitive Studies, Cognitive Studies |
Therapuetic Areas: | Psychiatry / Psychology |
Healthy: | No |
Age Range: | 18 - 50 |
Updated: | 4/21/2016 |
Start Date: | July 2013 |
End Date: | May 2017 |
Contact: | Susan E Marino, PhD |
Email: | marin007@umn.edu |
Phone: | 612-624-2964 |
Cognitive impairment is a widely reported side effect of many commonly used drugs. Even a
mild, untoward effect on an essential function such a linguistic behavior, a directly
observable product of complex cognitive processes, is disruptive to daily life.
Nevertheless, the mechanisms underlying a drug's impact on cognition are poorly understood.
This lack of understanding impedes the ability to predict both the effects of drugs in
development and the degree to which an individual is vulnerable to the cognitive impact of a
particular agent. Topiramate (TPM, an antiepileptic drug) is, with increasing frequency,
being prescribed for a range of conditions including migraine prophylaxis, obesity and pain.
It is a prime example of a drug that causes speech and language problems severe enough in
some patients to result in discontinuation of therapy. For reasons not well understood, TPM
has a poorer cognitive profile than many of the older antiepileptic drugs. The
investigators' rational for this study is that it will offer insight into the mechanisms
underlying drug-induced cognitive deficits.
mild, untoward effect on an essential function such a linguistic behavior, a directly
observable product of complex cognitive processes, is disruptive to daily life.
Nevertheless, the mechanisms underlying a drug's impact on cognition are poorly understood.
This lack of understanding impedes the ability to predict both the effects of drugs in
development and the degree to which an individual is vulnerable to the cognitive impact of a
particular agent. Topiramate (TPM, an antiepileptic drug) is, with increasing frequency,
being prescribed for a range of conditions including migraine prophylaxis, obesity and pain.
It is a prime example of a drug that causes speech and language problems severe enough in
some patients to result in discontinuation of therapy. For reasons not well understood, TPM
has a poorer cognitive profile than many of the older antiepileptic drugs. The
investigators' rational for this study is that it will offer insight into the mechanisms
underlying drug-induced cognitive deficits.
The investigators' long-term goal is to enhance clinical strategies and inform drug
development in order to maximize the benefits of individual drug therapy while minimizing
adverse cognitive/language-related side effects. The investigators' objective in this
application is to elucidate the relationship among drug exposure as measured by plasma drug
levels, its neurophysiological effects, and consequent effects on the cognitive processes
observable in everyday language use. Using topiramate (TPM) as a prototype, the
investigators will apply the tools of clinical pharmacology, computational linguistics,
neuroscience, and engineering to the design and execution of randomized, double blind,
crossover studies using three (3) doses of TPM, one (1) dose of a comparator drug
(lorazepam-LZP) and a placebo. In order to isolate the cognitive effects of TPM from those
possibly arising from an underlying medical condition, subjects will be healthy adults. The
investigators will capitalize on an innovative system for automated language and speech
analysis (SALSA) developed in our laboratory, to quantify the effects of TPM administration
on effective language use, a crucial component of normal day-to-day functioning.
development in order to maximize the benefits of individual drug therapy while minimizing
adverse cognitive/language-related side effects. The investigators' objective in this
application is to elucidate the relationship among drug exposure as measured by plasma drug
levels, its neurophysiological effects, and consequent effects on the cognitive processes
observable in everyday language use. Using topiramate (TPM) as a prototype, the
investigators will apply the tools of clinical pharmacology, computational linguistics,
neuroscience, and engineering to the design and execution of randomized, double blind,
crossover studies using three (3) doses of TPM, one (1) dose of a comparator drug
(lorazepam-LZP) and a placebo. In order to isolate the cognitive effects of TPM from those
possibly arising from an underlying medical condition, subjects will be healthy adults. The
investigators will capitalize on an innovative system for automated language and speech
analysis (SALSA) developed in our laboratory, to quantify the effects of TPM administration
on effective language use, a crucial component of normal day-to-day functioning.
Inclusion Criteria:
- Healthy men and women
- Ages 18-50
- Women are post-menopausal or using approved birth control methods
- To control for brain lateralization of language functions, subjects need to have a
dominant right hand.
Exclusion Criteria:
- Presence of clinically significant cardiovascular, endocrine, hematopoietic, hepatic,
renal, neurologic, and/or psychiatric disease including suicidality
- Vision or hearing impairments
- Current or a history of drug or alcohol abuse
- living outside of the Twin Cities Metropolitan area.
- The use of concomitant medications known to affect Topiramate (TPM), Lorazepam (LZP),
or the use of any concomitant medications that may alter cognitive function
- Prior adverse reaction or prior hypersensitivity to TPM, LZP or related compounds
- A positive pregnancy test (administered to all women before enrollment, and prior to
each study session).
- Subjects who have received any investigational drug within the previous 30 days
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