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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT04928703
Other study ID # EBS-B
Secondary ID
Status Completed
Phase Early Phase 1
First received
Last updated
Start date May 26, 2022
Est. completion date December 12, 2022

Study information

Verified date February 2023
Source ERP Biomarker Qualification Consortium
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

This is a Phase 0, Double-Blind, Randomized, Placebo-Controlled, Crossover Study to assess the changes in ERP Biomarkers in Healthy Volunteers before and after administration of a sub-anesthetic dose of ketamine. Primary objectives are to quantify the effect size of ketamine-induced changes on MMN from a duration-deviant auditory oddball ERP test and to quantify the variability of ketamine-induced changes on MMN from a duration-deviant auditory oddball ERP test.


Description:

The effects of ketamine and similar compounds on brain function have become of significant interest to pharma companies in the past few years. These effects are often used as a model for the glutamatergic hypofunction hypothesis of schizophrenia and therefore drugs targeting schizophrenia are being trialed to reverse or block the effects of ketamine. Esketamine has been recently approved as a potent treatment for depression so many pharma companies are trying to leverage ketamine-like modulation of the NMDA receptors as novel targets for depression. This heightened focus on NMDAr modulators has lead industry and academia to advance methods to measure these effects. Many studies have been performed using EEG and ERP techniques to measure the effect on brain function of ketamine administration but no study has been performed, to our knowledge, that has attempted to measure the variability and reproducibility of these effects. Furthermore, there is some evidence from the scientific literature and from unpublished results from industry-sponsored studies that ketamine may have a disordinal effect on various electrophysiologic measures, particularly the amplitude of the mismatch negativity (MMN) from an auditory oddball ERP test. In this study we will run various EEG/ERP tests on participants during a placebo administration and during two ketamine administrations separated by washout periods. This will allow, for the first time, the evaluation of the test-retest variability of a range ERP/EEG measures under ketamine administration vs placebo. This may also allow us to test the hypothesis that ketamine has a disordinal effect on different subjects and this disordinality can be predicted from a baseline (placebo) measurement.


Recruitment information / eligibility

Status Completed
Enrollment 33
Est. completion date December 12, 2022
Est. primary completion date December 12, 2022
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 21 Years to 40 Years
Eligibility Inclusion Criteria: 1. Healthy male and female subjects 21-40 years of age, inclusive at Visit 1 (Screening). 2. Female subjects with a negative serum pregnancy test prior to entry into the study and who are practicing an adequate method of birth control (e.g., oral or parenteral contraceptives, intrauterine device, barrier, abstinence) and who do not plan to become pregnant during the study and for 30 days after the last dose of ketamine. 3. Ability to understand the requirements of the study, provide written informed consent, abide by the study restrictions, and agree to return for the required assessments. 4. Subject is judged to be in good health as determined by the investigator. 5. Body mass index (BMI ) between 18.5 and 30.0 (inclusive) at Visit 1 (Screening). 6. Ability to detect a 1000 and 2000 Hz tone at 40 dB in both ears, at Visit 1 (Screening). 7. Ability to tolerate the electrode cap for the duration of the testing session. Exclusion Criteria: 1. Clinically significant alcohol or other substance abuse within the last 1 year, in the opinion of the investigator; or unable to abstain from alcoholic beverages during the course of the study. 2. Positive alcohol/drug screen for drugs of abuse (with the exception of a positive result considered by the investigator to be directly attributable to prescription medication approved for subject use) such as phencyclidine, benzodiazepines, opiates, cocaine, cannabinoids, amphetamines, and cotinine at any Visit. 3. Excessive caffeine use (defined as habitual consumption of > 400 mg caffeine per day [~ four 8 oz. cups brewed caffeinated coffee or tea, ~ ten 12 oz. cans caffeinated soda or ~ two "energy shot" drinks]), or unable to abstain from caffeine on Visits 2-4. 4. Use of products containing nicotine (tobacco or vaping products) 60 minutes prior to dosing on Visits 2-4. 5. Current or prior history (defined as in the past 6 months) of treatment with N-methyl-D-aspartate receptor (NMDAR) ligands including ketamine, amantadine, dextromethorphan, memantine, methadone, dextropropoxyphene, or ketobemidone. 6. History of allergy, sensitivity, or intolerance to NMDAR ligands including ketamine, amantadine, dextromethorphan, memantine, methadone, dextropropoxyphene, or ketobemidone. 7. Any impairment, activity, or situation that in the judgment of the investigator would prevent satisfactory completion of the study protocol. 8. History of significant psychiatric, neurologic (e.g. Huntington's, Parkinson's, Alzheimer's, Multiple Sclerosis, Type I or Type II diabetes mellitus, or a history of seizures, epilepsy, or strokes), or cognitive disorders (e.g. bipolar, schizophrenia, psychosis), or current (within 12 months prior to screening) psychiatric or cognitive disorders such as major depression, suicidal ideation, dementia, or anxiety disorders). 9. Abnormal medical history, or concurrent conditions that, in the opinion of the investigator or sponsor designated medical monitor, would preclude safe study participation, or interfere with study procedures/assessments. 10. History of severe renal or hepatic impairment, in the opinion of the investigator or the sponsor medical monitor. 11. Known history of significant cardiovascular condition such as myocardial infarction, congestive heart failure, clinically significant arrhythmias, current uncontrolled cardiac arrhythmias, angina, acute ischemia. 12. Hypertension characterized by resting systolic blood pressure > 140 mmHg or resting diastolic > 90 mmHg or tachycardia defined as a resting HR = 120 bpm or bradycardia defined as a resting HR of = 50 bpm, at any Visit. 13. Hypotension with an abnormal supine blood pressure defined as SBP < 90 mmHg or DBP <60 mmHg at any Visit. 14. Orthostatic hypotension consisting of a SBP change of = 30 mmHg or a DBP change of = 20 mmHg at 3 minutes after standing from a supine position at any Visit. 15. Resting heart rate < 45 or > 95 beats per minute. 16. A marked baseline prolongation of QT/QTc interval (such as QTc intervals that are repeatedly greater than 450 ms) or any other relevant ECG finding at Visit 1 (Screening). 17. A history of additional risk factors for Torsade de Pointes (such as heart failure, hypokalaemia, or family history of Long QT Syndrome). 18. Current evidence of dysplasia or history of malignancy (including lymphoma and leukemia) in the last 5 years, with the exception of successfully treated non-metastatic basal cell or squamous cell carcinoma of the skin or localized carcinoma in situ of the cervix. 19. Human immunodeficiency virus (HIV) infection, hepatitis, or other ongoing infectious disease that the investigator considers clinically significant. 20. History of gastrointestinal disease or surgery (except simple appendectomy or hernia repair), which can influence the absorption of the study drug. 21. Evidence of an infection at the time of clinic admission, in the opinion of the investigator. 22. Received an investigational product or device within 30 days (or 5 half-lives, whichever is longer) of dosing. 23. Use of first generation, sedating H1 antihistamines or sedative-hypnotic medications within 1 week prior to dosing. 24. Poor venous access; or have donated or had a significant loss of blood or plasma within 8 weeks of dosing. 25. Known allergy to latex. 26. Prior adverse reaction to ketamine or esketamine. 27. Medical history, conditions, or situations that, in the opinion of the investigator, would preclude safe study participation, or interfere with study procedures/assessments. 28. In addition to these criteria, the investigator may discontinue subjects at any time based on his or her clinical judgment.

Study Design


Related Conditions & MeSH terms


Intervention

Drug:
Ketamine
Ketamine IV administration

Locations

Country Name City State
United States Hassman Research Institute Marlton New Jersey

Sponsors (11)

Lead Sponsor Collaborator
ERP Biomarker Qualification Consortium Alkermes, Inc., Anavex Life Sciences Corp., Apex Innovative Sciences, Astellas Pharma Inc, COGNISION, H. Lundbeck A/S, Merck Sharp & Dohme LLC, Novartis, Sage Therapeutics, Takeda

Country where clinical trial is conducted

United States, 

Outcome

Type Measure Description Time frame Safety issue
Primary Ketamine-induced changes in Amplitude for parameters from the ERP tests. Amplitude changes (in microvolts) for the following parameters from the ERP tests:
1. Passive, Duration-deviant, Oddball ERP
a. MMN
Pre-intervention/Dosing
Secondary Ketamine-induced changes in Amplitude for parameters from the ERP tests. Amplitude changes (in microvolts) for the following parameters from the ERP tests:
Passive, Duration-deviant, Oddball ERP
N100
P3a
Active, Auditory Oddball ERP
N100
N200
P3b
Pre-intervention/Dosing
Secondary Ketamine-induced changes in Latency for parameters from the ERP tests. Latency changes (in milliseconds) for the following parameters from the ERP tests:
Passive, Duration-deviant, Oddball ERP
N100
MMN
P3a
Active, Auditory Oddball ERP
N100
N200
P3b
Pre-intervention/Dosing
Secondary Ketamine-induced change in Task Accuracy from the behavioral response during the active, auditory oddball ERP test. Change in Task Accuracy as a percentage of correct behavioral responses during the active, auditory oddball ERP test. Pre-intervention/Dosing
Secondary Ketamine-induced change in Reaction Time from the behavioral response during the active, auditory oddball ERP test. Change in Reaction Time for the correct behavioral responses measured in milliseconds during the active, auditory oddball ERP test. Pre-intervention/Dosing
Secondary Ketamine-induced change in Evoked Power from the auditory steady-state response (ASSR) paradigm. Change in Evoked Power measured in µv2/Hz from the ASSR paradigm. Pre-intervention/Dosing
Secondary Ketamine-induced change in Inter-trial coherence (ITC) from the auditory steady-state response (ASSR) paradigm. Inter-trial coherence (ITC) from the ASSR paradigm will be measured on a scale between 0 (no coherence) and 1 (maximum coherence). Outcome measure will be change in ITC. Pre-intervention/Dosing
Secondary Ketamine-induced changes in Absolute Power for Pharmaco-EEG parameters per IPEG guidelines. Changes in Absolute Power (measured in µv2/Hz) for the following Pharmaco-EEG parameters:
Delta power
Theta power
Alpha power
Beta power
Gamma power
Total power
Pre-intervention/Dosing
Secondary Ketamine-induced changes in Relative Power for Pharmaco-EEG parameters per IPEG guidelines. Relative Power for Pharmaco-EEG parameters will be measured on a scale from 0 (no power in frequency band) to 1 (all EEG power in that frequency band). Outcome measures will be changes in Relative Power for the following Pharmaco-EEG parameters:
Delta power
Theta power
Alpha power
Beta power
Pre-intervention/Dosing
Secondary Ketamine-induced change in the Dominant Frequency for the Alpha frequency band per IPEG guidelines. Dominant frequency will be measured in Hz in the frequency interval between 6.0 and < 12.5 Hz. Outcome measure will be change in the Dominant Frequency for the Alpha frequency band. Pre-intervention/Dosing
Secondary Ketamine-induced changes in Slow Wave Index per IPEG guidelines. Slow Wave Index (SWI) will be calculated as Alpha/(Delta+Theta), and will be measured as ratio. Outcome measure will be change in SWI. Pre-intervention/Dosing
Secondary Ketamine-induced changes in Theta/Beta ratio per IPEG guidelines. Theta/Beta (TBR) will be measured as ratio. Outcome measure will be change in TBR. Pre-intervention/Dosing
Secondary Correlations between Ketamine blood concentration and Ketamine-induced changes in Amplitude for parameters from the ERP tests. Correlations between ketamine blood concentration and amplitude changes (in microvolts) for the following parameters from the ERP tests:
Passive, Duration-deviant, Oddball ERP
a. MMN
Passive, Duration-deviant, Oddball ERP
N100
P3a
Active, Auditory Oddball ERP
N100
N200
P3b
Pre-intervention/Dosing
Secondary Correlations between Ketamine blood concentration and Ketamine-induced changes in Latency for parameters from the ERP tests. Correlations between ketamine blood concentration and latency changes (in milliseconds) for the following parameters from the ERP tests:
Passive, Duration-deviant, Oddball ERP
a. MMN
Passive, Duration-deviant, Oddball ERP
N100
P3a
Active, Auditory Oddball ERP
N100
N200
P3b
Pre-intervention/Dosing
Secondary Correlation between Ketamine blood concentration and Ketamine-induced change in Task Accuracy from the behavioral response during the active, auditory oddball ERP test. Correlation between Ketamine blood concentration and change in Task Accuracy measured as a percentage of correct behavioral responses during the active, auditory oddball ERP test. Pre-intervention/Dosing
Secondary Correlation between Ketamine blood concentration and Ketamine-induced change in Reaction Time from the behavioral response during the active, auditory oddball ERP test. Correlation between Ketamine blood concentration and change in Reaction Time for the correct behavioral responses measured in milliseconds during the active, auditory oddball ERP test. Pre-intervention/Dosing
Secondary Correlation between Ketamine blood concentration and Ketamine-induced change in Evoked Power from the auditory steady-state response (ASSR) paradigm. Correlation between Ketamine blood concentration and change in Evoked Power measured in µv2/Hz from the ASSR paradigm. Pre-intervention/Dosing
Secondary Correlation between Ketamine blood concentration and Ketamine-induced change in Inter-trial coherence (ITC) from the auditory steady-state response (ASSR) paradigm. Correlation between Ketamine blood concentration and change in Inter-trial coherence (ITC) from the ASSR paradigm. Change in ITC will be measured on a scale between 0 (no coherence) and 1 (maximum coherence). Pre-intervention/Dosing
Secondary Correlation between Ketamine blood concentration and Ketamine-induced changes in Absolute Power for Pharmaco-EEG parameters. Correlation between Ketamine blood concentration and changes in Absolute Power (measured in µv2/Hz) for the following Pharmaco-EEG parameters:
Delta power
Theta power
Alpha power
Beta power
Gamma power
Total power
Pre-intervention/Dosing
Secondary Correlation between Ketamine blood concentration and Ketamine-induced changes in Relative Power for Pharmaco-EEG parameters. Correlation between Ketamine blood concentration and changes in Relative Power for the following Pharmaco-EEG parameters:
Delta power
Theta power
Alpha power
Beta power
Pre-intervention/Dosing
Secondary Correlation between Ketamine blood concentration and Ketamine-induced change in the Dominant Frequency for the Alpha frequency band. Correlation between Ketamine blood concentration and Dominant frequency for the Alpha frequency band measured in Hz in the frequency interval between 6.0 and < 12.5 Hz. Pre-intervention/Dosing
Secondary Correlation between Ketamine blood concentration and Ketamine-induced changes in Slow Wave Index. Correlation between Ketamine blood concentration and changes Slow Wave Index (SWI) calculated as Alpha/(Delta+Theta) ratio. Pre-intervention/Dosing
Secondary Correlation between Ketamine blood concentration and Ketamine-induced changes in Theta/Beta ratio. Correlation between Ketamine blood concentration and changes in Theta/Beta ratio (TBR). Pre-intervention/Dosing
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