N-acetylcysteine and NMDA Antagonist Interactions

Brief Summary

This study tests the hypothesis that extrasynaptic mechanisms are critically linked with cognitive effects of NMDA antagonism as evidenced by event-related potentials (ERPs) in healthy humans.

Intervention / Treatment

  • N-acetylcysteine and ketamine (DRUG)
    Active drug (N-acetylcysteine)
  • Placebo and Ketamine (DRUG)
    placebo N-acetylcysteine

Condition or Disease

  • Cognitive Dysfunction

Phase

  • Phase 1
  • Phase 2
  • Study Design

    Study type: INTERVENTIONAL
    Status: Completed
    Study results: No Results Available
    Age: 21 Years to 45 Years
    Enrollment: 16 (ACTUAL)
    Funded by: Other
    Allocation: Randomized

    Masking

    TRIPLE:
    • Participant
    • Investigator
    • Outcomes Assessor

    Clinical Trial Dates

    Start date: Jan 01, 2006
    Primary Completion: Feb 01, 2011 ACTUAL
    Completion Date: Feb 01, 2011 ACTUAL
    Study First Posted: Feb 11, 2008 ESTIMATED
    Results First Posted: May 08, 2015 ESTIMATED
    Last Updated: May 07, 2015

    Sponsors / Collaborators

    Lead Sponsor: Yale University
    Lead sponsor is responsible party
    Responsible Party: N/A

    Participant Groups

    • The NAC capsules were administered orally in divided doses: 2000 mg followed by 1000 mg 2 hours later. Each morning, 165 min after NAC administration, subjects received a 1-min bolus of normal saline, followed by a 70-minlong saline infusion during which behavioral, cognitive, and ERP data were collected. Ketamine was administered intravenously as a bolus of .23 mg/kg over 1 min followed by .58 mg/kg for 30 min (SPM and RVP), and then .29 mg/kg for 40 min (P300 and MMN).

    • The placebo capsules were administered orally in divided doses: 2000 mg followed by 1000 mg 2 hours later. Each morning, 165 min after placebo administration, subjects received a 1-min bolus of normal saline, followed by a 70-minlong saline infusion during which behavioral, cognitive, and ERP data were collected. Ketamine was administered intravenously as a bolus of .23 mg/kg over 1 min followed by .58 mg/kg for 30 min (SPM and RVP), and then .29 mg/kg for 40 min (P300 and MMN).

    Eligibility Criteria

    Sex: All
    Minimum Age: 21
    Maximum Age: 45
    Age Groups: Adult
    Healthy Volunteers: Yes

    Inclusion Criteria:

    * Ages of 21-45 years from all ethnic backgrounds.
    * Male or female.
    * Written informed consent.

    Exclusion criteria

    * DSM-IV diagnosis for a psychotic, depressive or anxiety disorder.
    * A history of significant medical/neurological disease such as cardiac, thyroid, renal, hepatic abnormality, seizure disorder. Unstable medical condition based on EKG, vital signs, physical examination and laboratory work-up (CBC with differential, SMA-7, LFTs, TFTs, UA, Utox, Urine pregnancy test) .
    * History of severe allergies or multiple adverse drug reactions.
    * Any medication that in the opinion of the PI could interfere with either the safety of the study and/or the outcome measures.
    * Any other conditions which in the opinion of the investigator would preclude participation in the study.
    * History of major psychiatric disorder in first degree relatives.
    * Current substance abuse/dependency determined by urine toxicology.
    * Current treatment with medications with psychotropic effects.
    * Treatment with benzodiazepines within one week prior to testing.
    * Current pregnancy, unsatisfactory birth control method report for females.
    * Education \< 10th grade.
    * IQ \< 70, MR as determined by Wechsler Abbreviated Scale of Intelligence.
    * Non-English speaking.

    Primary Outcomes
    • The Target P300 measures were obtained from the Fz, Cz and Pz electrodes. Target stimuli were 1000 Hz tones (500 ms) and novel stimuli (\~250 ms) were unique environmental sounds (e.g., dog bark) used in prior studies of the novelty P300. Subjects were instructed to respond to the target sounds by pressing a button using their dominant hand index finger. The standard stimuli were 20, 30 or 40 Hz click trains (500 ms) in the first, second, and third runs, respectively. The auditory steady state EEG driving data obtained from these standard stimuli will be presented in a separate report. All stimuli were presented at 80 dB SPL.

    • The Novel P300 measures were obtained from the Fz, Cz and Pz electrodes. Target stimuli were 1000 Hz tones (500 ms) and novel stimuli (\~250 ms) were unique environmental sounds (e.g., dog bark) used in prior studies of the novelty P300. Subjects were instructed to respond to the target sounds by pressing a button using their dominant hand index finger. The standard stimuli were 20, 30 or 40 Hz click trains (500 ms) in the first, second, and third runs, respectively. The auditory steady state EEG driving data obtained from these standard stimuli will be presented in a separate report. All stimuli were presented at 80 dB SPL.

    Secondary Outcomes
    • Mismatch Negativity (MMN) Intensity difference waves at midline electrodes (Fz, Cz and Pz). The frequent standard tones were of 75 ms duration with 5 ms rise and fall time, and were composed of 500, 1000, and 1500 Hz sinusoidal partials (harmonics) that resulted in a single high pitched beep sound. All tones were presented at 76 dB sound pressure level (SPL) with the exception of intensity deviants. The three deviants were distinguishable from standard tones in either intensity, frequency, or duration. Subjects performed a visual discrimination distractor task during the MMN runs and were instructed to ignore the tones. The mismatch negativity (MMN) measure included 3 types of deviant tones (stimuli) that the subjects heard: 1. Frequency deviant, 2. Intensity deviant, 3. Duration deviant. The response to these 3 types of deviants were recorded in the EEG. Therefore each deviant was associated with different waves which we measured in amplitude (microvolts)

    • Mismatch Negativity (MMN) Frequency difference waves at midline electrodes (Fx, Cz and Pz). The frequent standard tones were of 75 ms duration with 5 ms rise and fall time, and were composed of 500, 1000, and 1500 Hz sinusoidal partials (harmonics) that resulted in a single high pitched beep sound. All tones were presented at 76 dB sound pressure level (SPL) with the exception of intensity deviants. The three deviants were distinguishable from standard tones in either intensity, frequency, or duration. Subjects performed a visual discrimination distractor task during the MMN runs and were instructed to ignore the tones. The mismatch negativity (MMN) measure included 3 types of deviant tones (stimuli) that the subjects heard: 1. Frequency deviant, 2. Intensity deviant, 3. Duration deviant. The response to these 3 types of deviants were recorded in the EEG. Therefore each deviant was associated with different waves which we measured in amplitude (microvolts)

    • Mismatch Negativity (MMN) Duration difference waves at midline electrodes (Fz, Cz and Pz). The frequent standard tones were of 75 ms duration with 5 ms rise and fall time, and were composed of 500, 1000, and 1500 Hz sinusoidal partials (harmonics) that resulted in a single high pitched beep sound. All tones were presented at 76 dB sound pressure level (SPL) with the exception of intensity deviants. The three deviants were distinguishable from standard tones in either intensity, frequency, or duration. Subjects performed a visual discrimination distractor task during the MMN runs and were instructed to ignore the tones. The mismatch negativity (MMN) measure included 3 types of deviant tones (stimuli) that the subjects heard: 1. Frequency deviant, 2. Intensity deviant, 3. Duration deviant. The response to these 3 types of deviants were recorded in the EEG. Therefore each deviant was associated with different waves which we measured in amplitude (microvolts)

    More Details

    NCT Number: NCT00611897
    Other IDs: 0508000518
    Study URL: https://clinicaltrials.gov/study/NCT00611897
    Last updated: Sep 29, 2023