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| ID | Type | Description | Link |
|---|---|---|---|
| 1R01DA058678-01A1 | U.S. NIH Grant/Contract | View source |
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| Name | Class |
|---|---|
| National Institute on Drug Abuse (NIDA) | NIH |
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The objectives/purpose of this study are to comprehensively investigate the effects of non-prescription CBD on driving performance, drowsiness, sedation, and cognitive function in a large sample of healthy adults aged 18-30 years, with additional characterization of effects by dose and by sex, using a rigorous RCT design which will naturally mitigate confounding factors.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Cannabidiol (CBD) Oil 300mg | Active Comparator | Cannabidiol (CBD) Oil, 300mg, 1 dose, 120 minutes prior to testing. After consumption of the respective treatment drug, the participant will be given a standardized meal and wait for 120 minutes to allow for drug absorption and for CBD to begin taking effect; this time frame was chosen based on the pharmacokinetics of CBD along with the consideration of participant burden (max absorption 2-5 hours; average half-life 17 hours). |
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| Cannabidiol (CBD) Oil 150mg | Active Comparator | Cannabidiol (CBD) Oil, 150mg, 1 dose, 120 minutes prior to testing. After consumption of the respective treatment drug, the participant will be given a standardized meal and wait for 120 minutes to allow for drug absorption and for CBD to begin taking effect; this time frame was chosen based on the pharmacokinetics of CBD along with the consideration of participant burden (max absorption 2-5 hours; average half-life 17 hours). |
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| Placebo Oil | Placebo Comparator | Placebo Oil 1 dose 120 minutes prior to testing. After consumption of the respective treatment drug/placebo, the participant will be given a standardized meal and wait for 120 minutes to allow for drug absorption and for CBD to begin taking effect; this time frame was chosen based on the pharmacokinetics of CBD along with the consideration of participant burden (max absorption 2-5 hours; average half-life 17 hours). |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Cannabidiol (CBD) Oil 300mg | Drug | Cannabidiol (CBD) Oil 300mg, 1 dose |
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| Measure | Description | Time Frame |
|---|---|---|
| Mean standard deviation of lateral position | The driving simulator will measure mean standard deviation which is the amount a driver is weaving within the lane during the drive. Ranges from 0 to infinity, with higher means indicating worse performance. | 150 minutes post intervention |
| Number of collisions | The driving simulator will measure how many times a participant crashes into other vehicles, signs, pedestrians, etc. during the simulation. Ranges from 0 to infinity, with higher numbers indicating worse performance. | 150 minutes post intervention |
| Mean reaction time to stimuli | The driving simulator will measure the mean reaction time (seconds) that it takes for a person to brake when exposed to stimuli. Ranges from 0 to infinity, with higher means indicating worse performance. | 150 minutes post intervention |
| Percent of time driver is out of travel lane | The driving simulator will measure the percent of time that each driver spends driving outside their travel lane. Percent ranges from 0-100, with higher scores indicating worse performance. | 150 minutes post intervention |
| Measure | Description | Time Frame |
|---|---|---|
| Self-reported sleepiness scale | Sleepiness will be assessed via the Stanford Sleepiness Scale which is a one question Likert scale question that ask a person's sleepiness level at that moment in time. The scale ranges from 1-7 with higher scores indicating more sleepiness. This test will be administered on a laptop. | baseline |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Toni M Rudisill, PhD | Contact | 3042930687 | trudisill@hsc.wvu.edu |
| Name | Affiliation | Role |
|---|---|---|
| Toni M Rudisill, PhD | West Virginia University | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| West Virginia University | Recruiting | Morgantown | West Virginia | 26506 | United States |
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| ID | Term |
|---|---|
| D002185 | Cannabidiol |
| D009821 | Oils |
| ID | Term |
|---|---|
| D002186 | Cannabinoids |
| D013729 | Terpenes |
| D006838 | Hydrocarbons |
| D009930 | Organic Chemicals |
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| Cannabidiol (CBD) Oil 150mg |
| Drug |
Cannabidiol (CBD) Oil 150mg, 1 dose |
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| Placebo Oil | Drug | Placebo Oil, 1 dose |
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| Self-reported sleepiness scale |
Sleepiness will be assessed via the Stanford Sleepiness Scale which is a one question Likert scale question that ask a person's sleepiness level at that moment in time. The scale ranges from 1-7 with higher scores indicating more sleepiness. This test will be administered on a laptop. |
| 200 minutes post intervention |
| Mental sedation score | The Visual Analog Mood Scale is a 16 question Likert type scale that assess different facets of a person's mental state. Questions 1,4,11, and 13 are summed together to get a mental sedation score. Higher scores indicate more sedation. This ranges from 0-400.This test will be administered on a laptop. | baseline |
| Mental sedation score | The Visual Analog Mood Scale is a 16 question Likert type scale that assess different facets of a person's mental state. Questions 1,4,11, and 13 are summed together to get a mental sedation score. Higher scores indicate more sedation. This ranges from 0-400.This test will be administered on a laptop. | 200 minutes post intervention |
| Physical sedation score | The Visual Analog Mood Scale is a 16 question Likert type scale that assess different facets of a person's mental state. Questions 3,5,6, and 16 are summed together to get a physical sedation score. Higher scores indicate more physical sedation. This ranges from 0-400. This test will be administered on a laptop. | baseline |
| Physical sedation score | The Visual Analog Mood Scale is a 16 question Likert type scale that assess different facets of a person's mental state. Questions 3,5,6, and 16 are summed together to get a physical sedation score. Higher scores indicate more physical sedation. This ranges from 0-400. This test will be administered on a laptop. | 200 minutes post intervention |
| Mean reaction time to stimuli for PVT | The psychomotor vigilance test is given via a computer program and assesses different facets of a person's vigilance, or ability to pay attention. It will measure a participants mean reaction time to the stimuli presented (in milliseconds). Higher times indicate worse performance. This ranges from 0 to infinity. | baseline |
| Mean reaction time to stimuli for PVT | The psychomotor vigilance test is given via a computer program and assesses different facets of a person's vigilance, or ability to pay attention. It will measure a participants mean reaction time to the stimuli presented (in milliseconds). Higher times indicate worse performance. This ranges from 0 to infinity. | 200 minutes post intervention |
| Number of lapses in attention for PVT | The psychomotor vigilance test is given via a computer program and assesses different facets of a person's vigilance, or ability to pay attention. It will measure a participants number of lapses in attention to presented stimuli. The test considers any reaction over 500 milliseconds to be a lapse in attention. More lapses indicate worse performance. This ranges from 0 to infinity. | Baseline |
| Number of lapses in attention for PVT | The psychomotor vigilance test is given via a computer program and assesses different facets of a person's vigilance, or ability to pay attention. It will measure a participants number of lapses in attention to presented stimuli. The test considers any reaction over 500 milliseconds to be a lapse in attention. More lapses indicate worse performance. This ranges from 0 to infinity. | 200 minutes post intervention |
| Mean lapse duration for PVT | The psychomotor vigilance test is given via a computer program and assesses different facets of a person's vigilance, or ability to pay attention. It will measure a participants number of lapses in attention to presented stimuli. The test considers any reaction over 500 milliseconds to be a lapse in attention. It measures the mean lapse duration for each participant. Longer lapses indicate worse performance. This ranges from 0 to infinity. | Baseline |
| Mean lapse duration for PVT | The psychomotor vigilance test is given via a computer program and assesses different facets of a person's vigilance, or ability to pay attention. It will measure a participants number of lapses in attention to presented stimuli. The test considers any reaction over 500 milliseconds to be a lapse in attention. It measures the mean lapse duration for each participant. Longer lapses indicate worse performance. This ranges from 0 to infinity. | 200 minutes post intervention |
| Number of errors for PVT | The psychomotor vigilance test is given via a computer program and assesses different facets of a person's vigilance, or ability to pay attention. It will measure how many errors a person makes during the 10-minute test. More errors indicate worse performance. This ranges from 0 to infinity. | Baseline |
| Number of errors for PVT | The psychomotor vigilance test is given via a computer program and assesses different facets of a person's vigilance, or ability to pay attention. It will measure how many errors a person makes during the 10-minute test. More errors indicate worse performance. This ranges from 0 to infinity. | 200 minutes post intervention |
| Interference score for mean reaction on FT | The Flanker Task is administered on a laptop. The test assesses the mean reaction time to congruent and incongruent scenarios presented to participants. The score is the difference when subtracting the mean reaction time for congruent scenarios from the mean reaction time for incongruent scenarios. Larger differences indicate more impairment. | Baseline |
| Interference score for mean reaction on FT | The Flanker Task is administered on a laptop. The test assesses the mean reaction time to congruent and incongruent scenarios presented to participants. The score is the difference when subtracting the mean reaction time for congruent scenarios from the mean reaction time for incongruent scenarios. Larger differences indicate more impairment. | 200 minutes post intervention |
| Interference score for accuracy on FT | The Flanker Task is administered on a laptop. The test assesses the mean accuracy to congruent and incongruent scenarios presented to participants. The score is the difference when subtracting the mean accuracy for congruent scenarios from the mean accuracy for incongruent scenarios. Larger differences indicate more impairment. | Baseline |
| Interference score for accuracy on FT | The Flanker Task is administered on a laptop. The test assesses the mean accuracy to congruent and incongruent scenarios presented to participants. The score is the difference when subtracting the mean accuracy for congruent scenarios from the mean accuracy for incongruent scenarios. Larger differences indicate more impairment. | 200 minutes post intervention |
| Time to accurately complete the Trail Making Test Part A | Trail Making Test A provides an assessment of complex attention. This test is typically ended after 5 minutes. Thus, possible outcomes are 1-300 seconds. Greater time indicates more impairment. | Baseline |
| Time to accurately complete the Trail Making Test Part A | Trail Making Test A provides an assessment of complex attention. This test is typically ended after 5 minutes. Thus, possible outcomes are 1-300 seconds. Greater time indicates more impairment. | 200 minutes post intervention |
| Time to accurately complete the Trail Making Test Part B | TMT Part B is a neuropsychological test that assesses a person's ability to switch cognitive sets and process information. This test is typically ended after This test is typically ended after 5 minutes. thus, possible outcomes are 1-300 seconds. Greater time indicates more impairment. | Baseline |
| Time to accurately complete the Trail Making Test Part B | TMT Part B is a neuropsychological test that assesses a person's ability to switch cognitive sets and process information. This test is typically ended after This test is typically ended after 5 minutes. thus, possible outcomes are 1-300 seconds. Greater time indicates more impairment. | 200 minutes post intervention |
| Total recalled words on the Hopkins Verbal Learning test | The Hopkins Verbal Learning test assesses an individual's ability to learn a list of 12 words over 3 different learning trials. Ranges from 0 to infinity. Greater numbers of recalled words mean better performance. | Baseline |
| Total recalled words on the Hopkins Verbal Learning test | The Hopkins Verbal Learning test assesses an individual's ability to learn a list of 12 words over 3 different learning trials. Ranges from 0 to infinity. Greater numbers of recalled words mean better performance. | 200 minutes post intervention |
| Discrimination index for the Hopkins Verbal Learning test | The Hopkins Verbal Learning test assesses an individual's ability to learn a list of 12 words over 3 different learning trials. Ranges from 0 to infinity. The discrimination index is calculated by taking the number of hits minus the number of false positives. Higher values indicate better performance. | Baseline |
| Discrimination index for the Hopkins Verbal Learning test | The Hopkins Verbal Learning test assesses an individual's ability to learn a list of 12 words over 3 different learning trials. Ranges from 0 to infinity. The discrimination index is calculated by taking the number of hits minus the number of false positives. Higher values indicate better performance. | 200 minutes post intervention |
| Percentage correctness of response on Stroop Test | The Stroop Test is a neuropsychological test extensively used to assess the ability to inhibit cognitive interference that occurs when the processing of a specific stimulus feature impedes the simultaneous processing of a second stimulus attribute. Ranges from 0-100%. The higher the percentage, the more accurate. | Baseline |
| Percentage correctness of response on Stroop Test | The Stroop Test is a neuropsychological test extensively used to assess the ability to inhibit cognitive interference that occurs when the processing of a specific stimulus feature impedes the simultaneous processing of a second stimulus attribute. Ranges from 0-100%. The higher the percentage, the more accurate. | 200 minutes post intervention |
| Number congruent responses on Stroop Test | The Stroop Test is a neuropsychological test extensively used to assess the ability to inhibit cognitive interference that occurs when the processing of a specific stimulus feature impedes the simultaneous processing of a second stimulus attribute. Ranges from 0-infinity. Higher numbers indicate better performance. | Baseline |
| Number congruent responses on Stroop Test | The Stroop Test is a neuropsychological test extensively used to assess the ability to inhibit cognitive interference that occurs when the processing of a specific stimulus feature impedes the simultaneous processing of a second stimulus attribute. Ranges from 0-infinity. Higher numbers indicate better performance. | 200 minutes post intervention |
| Number incongruent responses on Stroop Test | The Stroop Test is a neuropsychological test extensively used to assess the ability to inhibit cognitive interference that occurs when the processing of a specific stimulus feature impedes the simultaneous processing of a second stimulus attribute. Ranges from 0-infinity. Higher numbers indicate worse performance | Baseline |
| Number incongruent responses on Stroop Test | The Stroop Test is a neuropsychological test extensively used to assess the ability to inhibit cognitive interference that occurs when the processing of a specific stimulus feature impedes the simultaneous processing of a second stimulus attribute. Ranges from 0-infinity. Higher numbers indicate worse performance | 200 minutes post intervention |
| Sum of scores for forward and backward responses on Digit Span test | The digit span test is a very short test that evaluates a person's cognitive status. It is frequently used in hospitals and physicians' offices in order for a clinician to quickly evaluate whether a person's cognitive abilities are normal or impaired. Ranges from 0 to infinity. Participant receives a score if they recall a numbered sequence in the forward and backward direction. If the sequence is correct, a point is earned. Higher scores indicate better performance. | Baseline |
| Sum of scores for forward and backward responses on Digit Span test | The digit span test is a very short test that evaluates a person's cognitive status. It is frequently used in hospitals and physicians' offices in order for a clinician to quickly evaluate whether a person's cognitive abilities are normal or impaired. Ranges from 0 to infinity. Participant receives a score if they recall a numbered sequence in the forward and backward direction. If the sequence is correct, a point is earned. Higher scores indicate better performance. | 200 minutes post intervention |
| Gestalt score based on correctness of clock drawing | The Clock Drawing Test (CDT) is a screening tool for cognitive impairment. Score ranges from 0-5. Higher scores indicate an accurate drawing. | Baseline |
| Gestalt score based on correctness of clock drawing | The Clock Drawing Test (CDT) is a screening tool for cognitive impairment. Score ranges from 0-5. Higher scores indicate an accurate drawing. | 200 minutes post intervention |
| Number of correct and non-duplicate responses on Animal Naming test | Animal Naming Test is a semantic fluency test that consists of listing as many names of animals as possible in 1 minute. Ranges from 0-infinity. The higher the number, the better the performance. | Baseline |
| Number of correct and non-duplicate responses on Animal Naming test | Animal Naming Test is a semantic fluency test that consists of listing as many names of animals as possible in 1 minute. Ranges from 0-infinity. The higher the number, the better the performance. | 200 minutes post intervention |
| Number of omission errors on N-back test | Ranges from 0-infinity. More errors indicate worse performance | Baseline |
| Number of omission errors on N-back test | The n-back task is a continuous performance task that is commonly used as an assessment in psychology and cognitive neuroscience to measure a part of working memory and working memory capacity. The subject is presented with a sequence of stimuli, and the task consists of indicating when the current stimulus matches the one from n steps earlier in the sequence. Ranges from 0-infinity. More errors indicate worse performance | 200 minutes post intervention |
| Number of commission errors on N-Back test | The n-back task is a continuous performance task that is commonly used as an assessment in psychology and cognitive neuroscience to measure a part of working memory and working memory capacity. The subject is presented with a sequence of stimuli, and the task consists of indicating when the current stimulus matches the one from n steps earlier in the sequence. Ranges from 0-infinity. More errors indicate worse performance | Baseline |
| Number of commission errors on N-Back test | The n-back task is a continuous performance task that is commonly used as an assessment in psychology and cognitive neuroscience to measure a part of working memory and working memory capacity. The subject is presented with a sequence of stimuli, and the task consists of indicating when the current stimulus matches the one from n steps earlier in the sequence. Ranges from 0-infinity. More errors indicate worse performance | 200 minutes post intervention |
| Percent correct matches on N-Back test | The n-back task is a continuous performance task that is commonly used as an assessment in psychology and cognitive neuroscience to measure a part of working memory and working memory capacity. The subject is presented with a sequence of stimuli, and the task consists of indicating when the current stimulus matches the one from n steps earlier in the sequence. Ranges from 0-100%. Higher percent correct is better performance | Baseline |
| Percent correct matches on N-Back test | The n-back task is a continuous performance task that is commonly used as an assessment in psychology and cognitive neuroscience to measure a part of working memory and working memory capacity. The subject is presented with a sequence of stimuli, and the task consists of indicating when the current stimulus matches the one from n steps earlier in the sequence. Ranges from 0-100%. Higher percent correct is better performance | 200 minutes post intervention |
| D008055 |
| Lipids |