Phenytoin as a Neuroprotective Agent Against Corticosteroid-Induced Functional Imaging Changes

Condition(s) targeted: Healthy

Intervention: Phenytoin, Dilantin (Drug)

Phase: Phase 3

Status: Recruiting

Sponsored by: University of Texas Southwestern Medical Center

Official(s) and/or principal investigator(s):
Sherwood Brown, M.D.,Ph.D., Principal Investigator, Affiliation: UT Southwestern Medical Center of Dallas

Overall contact:
Daren D Denniston, B.S., Phone: 214-645-6963, Email: daren.denniston@mednet.swmed.edu

The purpose of this research is to determine if patients who receive phenytoin (also commonly known as Dilantin) before taking corticosteroids will show less memory impairment and hypomanic symptoms (feelings of agitation, overexcitement or hyperactivity) than those receiving placebo (an inactive substance). This research also seeks to determine if patients taking phenytoin before corticosteroids show more activity in the area of the brain involved with memory than those receiving placebo.

This research is being done because increased levels of cortisol (the body's natural corticosteroid) in the body are frequently associated with forgetfulness, and interventions that may prevent or reverse this effect are of great importance.

Official title: Phenytoin as a Neuroprotective Agent Against Corticosteroid-Induced Functional Imaging Changes

Study design: Treatment, Randomized, Double Blind (Subject, Investigator), Placebo Control, Factorial Assignment, Efficacy Study

Primary outcome: Scored Memory and Mood Assessments specified; fMRI Neuroimaging data obtained through Novelty Detection Tasks; Structural MRI and MRS measuring Hippocampal volume and activation

Detailed description: Introduction and aims: Stress and corticosteroid exposure are associated with changes in the human and animal hippocampus. In animals, phenytoin prevents dendritic changes in the hippocampus secondary to corticosterone. We propose to use functional magnetic resonance imaging (fMRI) to explore the effects of 3-days of exposure to placebo, hydrocortisone, phenytoin and hydrocortisone plus phenytoin on hippocampal activation. If phenytoin attenuates the effects of hydrocortisone, we will use this model system to explore other potential neuroprotective agents

CONCISE SUMMARY OF PROJECT: Sixteen healthy participants will, in a one-hour imaging session, receive a structural HMRSI, MRS and fMRI scan four separate times with a 21 day washout between each study drug exposure in a crossover design. Prior to each scan each participant will receive placebo + placebo, phenytoin + placebo, hydrocortisone + placebo, or hydrocortisone + phenytoin in a random fashion. Thus, each participant will receive each of the four possible study drug combinations in a random order with an extended drug washout between each exposure. Hippocampal activation, volume and biochemistry, as well as mood and memory will be assessed. The figure in Appendix I illustrates the study design.

All participants will complete a UT Southwestern IRB approved informed consent process and give written consent to participate prior to study entry.

At the first screening visit, demographic information and a complete medical and psychiatric history will be obtained. The Structured Clinical Interview for DSM-IV (SCID) (First et al 1995) will be used to rule out exclusionary psychiatric illnesses. Mood will be assessed with the HRSD, YMRS, and Activation (ACT) subscale of the ISS. Cognition will be assessed with the RAVLT (declarative memory-hippocampus), Digit Span Backwards, and two computer tests — the Sternberg Memory Task (SMT, declarative memory-hippocampus) (Sternberg 1969), and Running Memory Continuous Performance Task (RMCPT, working memory-prefrontal cortex) (Baddeley 1986). Alternative versions of the tests will be used throughout the study to minimize any learning effects. For subjects who successfully pass the screening, fMRI sessions will be scheduled, and they will be asked to return 4 days prior to their first scan. If subjects feel uncomfortable answering any questions on the questionnaires during their screening visit, they can refuse to do so, and they will be removed from the study. If any psychological disorders are diagnosed at this stage (e. g., mood disorders such as depression), subjects will be removed from the study and referred either to Parkland hospital or to a private psychiatrist based on their insurance coverage for further evaluations and treatment. If at a later stage any abnormalities are uncovered through imaging, subjects will be notified immediately. Subjects will be provided with a referral to either Parkland Hospital or a different facility based on their insurance coverage. With the subject's consent, we will also notify their primary physician.

Pregnancy tests will be obtained for females at baseline and prior to the start of each new medication cycle to ensure that no pregnant women are participating in the study (5 times total during the study).

One day prior to each study drug course, mood will be assessed with HRSD, YMRS, and ACT subscale of ISS, and cognition will be assessed with the Sternberg Memory Task.

Three days prior to imaging, participants will take two capsules containing phenytoin tablets (100 mg) or identical placebo by mouth at 0900 hours and 2100 hours (400 mg/day) for a total of three days with the last dose at 0900 hours on the day of the imaging (7 doses total). Beginning two days prior to the imaging (the day after initiating the phenytoin or placebo), participants will begin taking 4 tablets containing hydrocortisone (20 mg) or placebo also at 0900 hours and 2100 hours (160 mg/day) with the last dose at 0900 hours on the day of the imaging (5 doses total). The doses were selected to achieve a low therapeutic blood level of phenytoin and stress level of cortisol. Newcomer et al. (1999) used this dose of hydrocortisone in healthy controls. The imaging will be performed at approximately 1300 hours.

Imaging will be performed after each three day exposure to study medications. Mood assessments and the SMT will be conducted at baseline and prior to and after each course of study medication (day medication course begins and on the day of the neuroimaging). The SMT has a large number of equivalent versions and thus can be administered numerous times. By administering prior to each exposure to study drug we can determine whether or not memory will, as expected, have returned to baseline after each washout period. Other cognitive testing including the RAVLT, Digits Backwards, and RMCPT will be performed after each course of study medication. Cognitive testing is not performed prior to receiving the study medication to avoid multiple testing over a short period of time which is unnecessary given the baseline and placebo data which can be used for comparison.

Monitoring study drug levels: Blood will be drawn at baseline (approximately 1400 hours) to assess cortisol levels. Blood will be drawn after each scan (approximately 1400 hours) to assess cortisol and phenytoin levels and to ensure adherence to the medications. We anticipate an increase in cortisol levels following administration of cortisol compared to baseline in subjects taking cortisol, and that therapeutic levels of phenytoin for seizures (10 to 20 mg/l) will be achieved.

Minimum age: 18 Years. Maximum age: 50 Years. Gender(s): Both.

Criteria:

Inclusion Criteria:

- Age 18-50 years

- Men or women

- Vision corrected to at least 20-40

- No tobacco use

- Education of ≥12 years (No GED)

Exclusion Criteria:

- History of major psychiatric illness defined as major depressive disorder, bipolar

disorder, post traumatic stress disorder, panic disorder, schizoaffective disorder, schizophrenia or eating disorders

- History of drug or alcohol abuse or dependence

- History of neurological disorders including seizures, brain surgery, multiple

sclerosis, Parkinson's disease

- Taking CNS acting medications (e. g. antidepressants, hypnotics)

- History of allergic reaction or medical contraindication to phenytoin or

hydrocortisone therapy

- Metal implants, claustrophobia or other contraindications to MRI

- Significant medical conditions (e. g. myocardial infarction, diabetes)

- Pregnant or nursing women

- Prisoners

- History of mental retardation, special education classes, dementia or other severe

cognitive disorders

- Baseline Hamilton Rating Scale for Depression Score > 7

- History of a suicide attempt

- History of systemic corticosteroid use or current inhaled corticosteroid use

Daren D Denniston, B.S., Phone: 214-645-6963, Email: daren.denniston@mednet.swmed.edu

UT Southwestern Medical Center of Dallas/Parkland Memorial Hospital, Dallas, Texas 75390-8849, United States; Recruiting
Sherwood Brown, M.D.,Ph.D., Principal Investigator

Psychoneuroendocrine Research Group Website

Starting date: January 2008
Last updated: February 11, 2008