Outcome
| Type |
Measure |
Description |
Time frame |
Safety issue |
| Primary |
Standard Deviation of Lateral Position (SDLP) at 2 Hours Post-dose (Approximately at Tmax) |
Subjects were instructed to drive with steady lateral position between the delineated boundaries of the slower (right) traffic lane, while maintaining a constant speed of 95 kilometers (km) per hour (hr). Deviation was measured by the vehicle's speed and lateral distance to the left lane line and was continuously recorded. Individual improvement was defined as a decrease in SDLP below the negative value of threshold; individual impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
2 hours post-dose |
|
| Secondary |
SDLP at 6 Hours Post-dose |
Subjects were instructed to drive with steady lateral position between the delineated boundaries of the slower (right) traffic lane, while maintaining a constant speed of 95 kilometers (km) per hour (hr). Deviation was measured by the vehicle's speed and lateral distance to the left lane line and was continuously recorded. Individual improvement was defined as a decrease in SDLP below the negative value of threshold; individual impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
6 hours post-dose |
|
| Secondary |
Number of Subjects With Improved or Impaired Driving at a Threshold 1 Centimeter (cm) on JZP-110 Compared to Placebo 2 Hours Post-dose |
Individual changes (solriamfetol minus placebo) in driving performance were measured by SDLP at 2 hours postdose. The Maximum McNemar symmetry analyses was used to detect an asymmetry in the distribution of the change in driving performance at 2 hours postdose. The test examined the differences in the proportions of impaired drivers and improved drivers following treatment using a generalized single McNemar test statistics were obtained at each threshold (1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 cm), which was the vehicle weaving amount. Changes in SDLP exceeding 2.4 cm have been evaluated as clinically relevant. Improvement was defined as a decrease in SDLP comparing JZP-110 and placebo below the threshold and impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
2 hours post-dose |
|
| Secondary |
Number of Subjects With Improved or Impaired Driving at a Threshold 1.5 cm on JZP-110 Compared to Placebo 2 Hours Post-dose |
Individual changes (solriamfetol minus placebo) in driving performance were measured by SDLP at 2 hours postdose. The Maximum McNemar symmetry analyses was used to detect an asymmetry in the distribution of the change in driving performance at 2 hours postdose. The test examined the differences in the proportions of impaired drivers and improved drivers following treatment using a generalized single McNemar test statistics were obtained at each threshold (1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 cm), which was the vehicle weaving amount. Changes in SDLP exceeding 2.4 cm have been evaluated as clinically relevant. Improvement was defined as a decrease in SDLP comparing JZP-110 and placebo below the threshold and impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
2 hours post-dose |
|
| Secondary |
Number of Subjects With Improved or Impaired Driving at a Threshold 2.0 cm on JZP-110 Compared to Placebo 2 Hours Post-dose |
Individual changes (solriamfetol minus placebo) in driving performance were measured by SDLP at 2 hours postdose. The Maximum McNemar symmetry analyses was used to detect an asymmetry in the distribution of the change in driving performance at 2 hours postdose. The test examined the differences in the proportions of impaired drivers and improved drivers following treatment using a generalized single McNemar test statistics were obtained at each threshold (1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 cm), which was the vehicle weaving amount. Changes in SDLP exceeding 2.4 cm have been evaluated as clinically relevant. Improvement was defined as a decrease in SDLP comparing JZP-110 and placebo below the threshold and impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
2 hours post-dose |
|
| Secondary |
Number of Subjects With Improved or Impaired Driving at a Threshold 2.5 cm on JZP-110 Compared to Placebo 2 Hours Post-dose |
Individual changes (solriamfetol minus placebo) in driving performance were measured by SDLP at 2 hours postdose. The Maximum McNemar symmetry analyses was used to detect an asymmetry in the distribution of the change in driving performance at 2 hours postdose. The test examined the differences in the proportions of impaired drivers and improved drivers following treatment using a generalized single McNemar test statistics were obtained at each threshold (1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 cm), which was the vehicle weaving amount. Changes in SDLP exceeding 2.4 cm have been evaluated as clinically relevant. Improvement was defined as a decrease in SDLP comparing JZP-110 and placebo below the threshold and impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
2 hours post-dose |
|
| Secondary |
Number of Subjects With Improved or Impaired Driving at a Threshold 3.0 cm on JZP-110 Compared to Placebo 2 Hours Post-dose |
Individual changes (solriamfetol minus placebo) in driving performance were measured by SDLP at 2 hours postdose. The Maximum McNemar symmetry analyses was used to detect an asymmetry in the distribution of the change in driving performance at 2 hours postdose. The test examined the differences in the proportions of impaired drivers and improved drivers following treatment using a generalized single McNemar test statistics were obtained at each threshold (1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 cm), which was the vehicle weaving amount. Changes in SDLP exceeding 2.4 cm have been evaluated as clinically relevant. Improvement was defined as a decrease in SDLP comparing JZP-110 and placebo below the threshold and impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
2 hours post-dose |
|
| Secondary |
Number of Subjects With Improved or Impaired Driving at a Threshold 3.5 cm on JZP-110 Compared to Placebo 2 Hours Post-dose |
Individual changes (solriamfetol minus placebo) in driving performance were measured by SDLP at 2 hours postdose. The Maximum McNemar symmetry analyses was used to detect an asymmetry in the distribution of the change in driving performance at 2 hours postdose. The test examined the differences in the proportions of impaired drivers and improved drivers following treatment using a generalized single McNemar test statistics were obtained at each threshold (1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 cm), which was the vehicle weaving amount. Changes in SDLP exceeding 2.4 cm have been evaluated as clinically relevant. Improvement was defined as a decrease in SDLP comparing JZP-110 and placebo below the threshold and impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
2 hours post-dose |
|
| Secondary |
Number of Subjects With Improved or Impaired Driving at a Threshold 1.0 cm on JZP-110 Compared to Placebo 6 Hours Post-dose |
Individual changes (solriamfetol minus placebo) in driving performance were measured by SDLP at 6 hours postdose. The Maximum McNemar symmetry analyses was used to detect an asymmetry in the distribution of the change in driving performance at 6 hours postdose. The test examined the differences in the proportions of impaired drivers and improved drivers following treatment using a generalized single McNemar test statistics were obtained at each threshold (1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 cm), which was the vehicle weaving amount. Changes in SDLP exceeding 2.4 cm have been evaluated as clinically relevant. Improvement was defined as a decrease in SDLP comparing JZP-110 and placebo below the threshold and impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
6 hours post-dose |
|
| Secondary |
Number of Subjects With Improved or Impaired Driving at a Threshold 1.5 cm on JZP-110 Compared to Placebo 6 Hours Post-dose |
Individual changes (solriamfetol minus placebo) in driving performance were measured by SDLP at 6 hours postdose. The Maximum McNemar symmetry analyses was used to detect an asymmetry in the distribution of the change in driving performance at 6 hours postdose. The test examined the differences in the proportions of impaired drivers and improved drivers following treatment using a generalized single McNemar test statistics were obtained at each threshold (1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 cm), which was the vehicle weaving amount. Changes in SDLP exceeding 2.4 cm have been evaluated as clinically relevant. Improvement was defined as a decrease in SDLP comparing JZP-110 and placebo below the threshold and impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
6 hours post-dose |
|
| Secondary |
Number of Subjects With Improved or Impaired Driving at a Threshold 2.0 cm on JZP-110 Compared to Placebo 6 Hours Post-dose |
Individual changes (solriamfetol minus placebo) in driving performance were measured by SDLP at 6 hours postdose. The Maximum McNemar symmetry analyses was used to detect an asymmetry in the distribution of the change in driving performance at 6 hours postdose. The test examined the differences in the proportions of impaired drivers and improved drivers following treatment using a generalized single McNemar test statistics were obtained at each threshold (1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 cm), which was the vehicle weaving amount. Changes in SDLP exceeding 2.4 cm have been evaluated as clinically relevant. Improvement was defined as a decrease in SDLP comparing JZP-110 and placebo below the threshold and impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
6 hours post-dose |
|
| Secondary |
Number of Subjects With Improved or Impaired Driving at a Threshold 2.5 cm on JZP-110 Compared to Placebo 6 Hours Post-dose |
Individual changes (solriamfetol minus placebo) in driving performance were measured by SDLP at 6 hours postdose. The Maximum McNemar symmetry analyses was used to detect an asymmetry in the distribution of the change in driving performance at 6 hours postdose. The test examined the differences in the proportions of impaired drivers and improved drivers following treatment using a generalized single McNemar test statistics were obtained at each threshold (1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 cm), which was the vehicle weaving amount. Changes in SDLP exceeding 2.4 cm have been evaluated as clinically relevant. Improvement was defined as a decrease in SDLP comparing JZP-110 and placebo below the threshold and impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
6 hours post-dose |
|
| Secondary |
Number of Subjects With Improved or Impaired Driving at a Threshold 3.0 cm on JZP-110 Compared to Placebo 6 Hours Post-dose |
Individual changes (solriamfetol minus placebo) in driving performance were measured by SDLP at 6 hours postdose. The Maximum McNemar symmetry analyses was used to detect an asymmetry in the distribution of the change in driving performance at 6 hours postdose. The test examined the differences in the proportions of impaired drivers and improved drivers following treatment using a generalized single McNemar test statistics were obtained at each threshold (1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 cm), which was the vehicle weaving amount. Changes in SDLP exceeding 2.4 cm have been evaluated as clinically relevant. Improvement was defined as a decrease in SDLP comparing JZP-110 and placebo below the threshold and impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
6 hours post-dose |
|
| Secondary |
Number of Subjects With Improved or Impaired Driving at a Threshold 3.5 cm on JZP-110 Compared to Placebo 6 Hours Post-dose |
Individual changes (solriamfetol minus placebo) in driving performance were measured by SDLP at 6 hours postdose. The Maximum McNemar symmetry analyses was used to detect an asymmetry in the distribution of the change in driving performance at 6 hours postdose. The test examined the differences in the proportions of impaired drivers and improved drivers following treatment using a generalized single McNemar test statistics were obtained at each threshold (1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 cm), which was the vehicle weaving amount. Changes in SDLP exceeding 2.4 cm have been evaluated as clinically relevant. Improvement was defined as a decrease in SDLP comparing JZP-110 and placebo below the threshold and impairment was defined as an increase in SDLP above the threshold or failure to complete the driving test due to sleepiness or subjects related safety concerns. |
6 hours post-dose |
|
| Secondary |
Standard Deviation of Speed (SDS) at 2 Hours Post-dose |
Mean SDS was a common measure of the driver's ability to maintain a constant driving speed. Variations in driving speed were recorded and analyzed. |
2 hours post-dose |
|
| Secondary |
SDS at 6 Hours Post-dose |
Mean SDS was a common measure of the driver's ability to maintain a constant driving speed. Variations in driving speed were recorded and analyzed. |
6 hours post-dose |
|
| Secondary |
Number of Lapses in Driving Test at 2 Hours Post-dose |
Driving lapses (also known as lane drift, defined as deviations > 100 cm from the mean lateral position and from the absolute lateral position for 8 seconds. Driving performance will be assessed using a standardized on-road driving test on Day 7 (Visit 4) and on Day 14 (Visit 5). A practice driving test will be done during the screening period to familiarize the subject with the vehicle and test scenario, assess if the subject can adequately operate the manual transmission vehicle, and determine if any safety concerns exist that exclude the subject from participating in the study. |
2 hours post-dose |
|
| Secondary |
Number of Lapses in Driving Test at 6 Hours Post-dose |
Driving lapses (also known as lane drift, defined as deviations > 100 cm from the mean lateral position and from the absolute lateral position for 8 seconds. Driving performance will be assessed using a standardized on-road driving test on Day 7 (Visit 4) and on Day 14 (Visit 5). A practice driving test will be done during the screening period to familiarize the subject with the vehicle and test scenario, assess if the subject can adequately operate the manual transmission vehicle, and determine if any safety concerns exist that exclude the subject from participating in the study. |
6 hours post-dose |
|
| Secondary |
Psychomotor Vigilance Test (PVT) Number of Lapses at 2 Hours Post-dose |
The PVT was administered at screening for practice only, and at pre-dose and within 30 minutes before each driving test on Days 7 and 14 (Visits 4 and 5, respectively). The test was administered over 10 minutes with visual stimuli appearing randomly at variable intervals of 2 to 10 seconds. Subjects were instructed to respond to the appearance of a visual stimulus on a computer screen by pushing a response button as quickly as possible. Lapses were measured as (RT > 500 msec). |
2 hours post-dose |
|
| Secondary |
PVT Number of Lapses at 6 Hours Post-dose |
The PVT was administered at screening for practice only, and at pre-dose and within 30 minutes before each driving test on Days 7 and 14 (Visits 4 and 5, respectively). The test was administered over 10 minutes with visual stimuli appearing randomly at variable intervals of 2 to 10 seconds. Subjects were instructed to respond to the appearance of a visual stimulus on a computer screen by pushing a response button as quickly as possible. Lapses were measured as (RT > 500 msec). |
6 hours post-dose |
|
| Secondary |
PVT Mean Reaction Time at 2 Hours Post-dose |
The PVT was administered at screening for practice only, and at pre-dose and within 30 minutes before each driving test on Days 7 and 14 (Visits 4 and 5, respectively). The test was administered over 10 minutes with visual stimuli appearing randomly at variable intervals of 2 to 10 seconds. Subjects were instructed to respond to the appearance of a visual stimulus on a computer screen by pushing a response button as quickly as possible. Mean RT is measured in msec. |
2 hours post-dose |
|
| Secondary |
PVT Mean Reaction Time at 6 Hours Post-dose |
The PVT was administered at screening for practice only, and at pre-dose and within 30 minutes before each driving test on Days 7 and 14 (Visits 4 and 5, respectively). The test was administered over 10 minutes with visual stimuli appearing randomly at variable intervals of 2 to 10 seconds. Subjects were instructed to respond to the appearance of a visual stimulus on a computer screen by pushing a response button as quickly as possible. Mean RT is measured In msec. |
6 hours post-dose |
|
| Secondary |
PVT Inverse Reaction Time at 2 Hours Post-dose |
The PVT was administered at screening for practice only, and at pre-dose and within 30 minutes before each driving test on Days 7 and 14 (Visits 4 and 5, respectively). The test was administered over 10 minutes with visual stimuli appearing randomly at variable intervals of 2 to 10 seconds. Subjects were instructed to respond to the appearance of a visual stimulus on a computer screen by pushing a response button as quickly as possible. Inverse reaction time was expressed as 1/reaction time in msec. |
2 hours post-dose |
|
| Secondary |
PVT Inverse Reaction Time at 6 Hours Post-dose |
The PVT was administered at screening for practice only, and at pre-dose and within 30 minutes before each driving test on Days 7 and 14 (Visits 4 and 5, respectively). The test was administered over 10 minutes with visual stimuli appearing randomly at variable intervals of 2 to 10 seconds. Subjects were instructed to respond to the appearance of a visual stimulus on a computer screen by pushing a response button as quickly as possible. Inverse reaction time was expressed as 1/reaction time in msec. |
6 hours post-dose |
|
| Secondary |
PVT Number of Errors of Commission at 2 Hours Post-dose |
The PVT was administered at screening for practice only, and at pre-dose and within 30 minutes before each driving test on Days 7 and 14 (Visits 4 and 5, respectively). The test was administered over 10 minutes with visual stimuli appearing randomly at variable intervals of 2 to 10 seconds. Subjects were instructed to respond to the appearance of a visual stimulus on a computer screen by pushing a response button as quickly as possible. Errors of commission were measured as the number of responses without a stimulus or false starts with (RT < 100 msec). |
2 hours post-dose |
|
| Secondary |
PVT Number of Errors of Commission at 6 Hours Post-dose |
The PVT was administered at screening for practice only, and at pre-dose and within 30 minutes before each driving test on Days 7 and 14 (Visits 4 and 5, respectively). The test was administered over 10 minutes with visual stimuli appearing randomly at variable intervals of 2 to 10 seconds. Subjects were instructed to respond to the appearance of a visual stimulus on a computer screen by pushing a response button as quickly as possible. Errors of commission were measured as the number of responses without a stimulus or false starts with (RT < 100 msec). |
6 hours post-dose |
|
| Secondary |
Toronto Hospital Alert Test (THAT) |
THAT is a 10-item self-report questionnaire designed to measure perceived alertness in the preceding week. The THAT was administered at baseline and the end of each treatment period. The total score of THAT can range between 0 to 50 where the higher score indicates greater alertness. |
Post Treatment at day 21 |
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