Teens with Attention-Deficit/Hyperactivity Disorder (ADHD) have high rates of negative driving outcomes, including motor vehicle crashes, which may be caused by visual inattention (i.e., looking away from the roadway to perform secondary tasks). A driving intervention that trains teens to reduce instances of looking away from the roadway will be tested in teens with ADHD.
Operating a motor vehicle requires a complex set of skills, the most important of which is the ability to continuously visually attend to the roadway. Glances away from the roadway significantly increase one's risk for a motor vehicle crash (MVC). Teen drivers evidence far more extended glances away from the roadway than experienced drivers. Further, teens with a diagnosis of Attention Deficit/Hyperactivity Disorder (ADHD) emit 3-times more extended glances away from the roadway than typical teens. There is a clear need for interventions, particularly one that targets extended glances away from the roadway, to address the driving deficits of teens with ADHD. The proposed research will test the efficacy of the FOcused Concentration and Attention Learning (FOCAL) intervention, which targets reducing the number of extended glances away from the roadway, among teens with ADHD. The PC-based FOCAL training provides teens with an operational understanding of the dangers of extended glances away from the roadway and trains them on limiting the length of the teens' glances. The investigators have enhanced the FOCAL intervention (now termed FOCAL+) to include multiple training sessions and to integrate practice on a driving simulator with immediate feedback regarding extended glance behavior. In this randomized trial, teens with ADHD will be randomly assigned to receive either FOCAL+ or a sham placebo group. Immediately after 1 month of training sessions and 6-months post-training, teens' driving skills will be assessed using a driving simulator. In addition, teens will have cameras installed in their cars for 12-months which record driver behavior and road conditions during irregular events (e.g., hard-braking, swerving). Using data from driving simulation, cameras installed in the teen's car, and teen driving records, the investigators will examine the short- and long-term efficacy of the FOCAL+ intervention on 1) decreasing rates of extended glances away from the roadway among teens with ADHD, and 2) improving driving performance among teens with ADHD.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
152
Weekly for 5 weeks, teens complete a computer training program designed to train teens to limit the length of glances away from the roadway. On a computer, the top portion of the screen plays a simulated video drive while the bottom half of the screen contains a map. Teens complete tasks that require switching between the 2 halves of the screen. While doing so, they receive feedback regarding how long they are looking away from the driving portion of the screen. After each session of computerized FOCAL training, teens will complete two 5-minute simulated drives. During the drives, teens will be cued to a complete a visual search task which will require them to divert their gaze from the road. Eye tracking goggles will monitor eye glances and provide real time auditory feedback when a visual glance away from the roadway exceeds 2 secs.
Weekly for 5 weeks, teens will perform computer-based training regarding traffic codes, laws, and rules of the road. After each computerized training, teens will complete two 5-minute drives. This time in the driving simulator will be contextualized as a time for them to practice the rules of the road they learned during training. Importantly, teens in the sham intervention group will complete the same distraction tasks but will NOT receive any feedback regarding their eye gaze during simulated driving.
Center for ADHD, Cincinnati Childrens Hospital Medical Center
Cincinnati, Ohio, United States
Number of Extended Glances Away From Roadway During Driving Simulation
Participants completed a simulated drive in a driving simulator with an integrated eye-tracking system. Participants completed two 15-minute drives. During each drive, participants engaged in 14 secondary tasks. The secondary task consisted of searching for streets on a GPS map and lasted for 30 seconds. Eye gaze was sampled continuously. Eye gaze data was summarized by calculating the number of extended (≥2 secs) glances away from the roadway during the 14 secondary task periods per drive. This was our primary outcome for visual behavior during driving. Descriptive estimates reflect averages across the 2 drives. However, for analyses, estimates for each drive were statistically modeled with a two-level drive variable.
Time frame: 1-month post-training
Standard Deviation of Lateral Position During Driving Simulation
Participants completed a simulated drive in a driving simulator with an integrated eye-tracking system. Participants completed two 15-minute drives. During each drive, participants engaged in 14 secondary tasks. The secondary task consisted of searching for streets on a GPS map and lasted for 30 seconds. Lateral position was sampled continuously. Standard deviation of lane position was calculated for the 14 secondary task periods per drive. Estimates reflect averages across the 2 drives. However, for analyses, estimates for each drive were statistically modeled with a two-level drive variable.
Time frame: 1-month post-training
Number of Extended Glances Away From Roadway During Driving Simulation
Participants completed a simulated drive in a driving simulator with an integrated eye-tracking system. Participants completed two 15-minute drives. During each drive, participants engaged in 14 secondary tasks. The secondary task consisted of searching for streets on a GPS map and lasted for 30 seconds. Eye gaze was sampled continuously. Eye gaze data was summarized by calculating the number of extended (≥2 secs) glances away from the roadway during the 14 secondary task periods per drive. This was our primary outcome for visual behavior during driving. Descriptive estimates reflect averages across the 2 drives. However, for analyses, estimates for each drive were statistically modeled with a two-level drive variable.
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
Time frame: 6-months post-training
Standard Deviation of Lateral Position During Driving Simulation
Participants completed a simulated drive in a driving simulator with an integrated eye-tracking system. Participants completed two 15-minute drives. During each drive, participants engaged in 14 secondary tasks. The secondary task consisted of searching for streets on a GPS map and lasted for 30 seconds. Lateral position was sampled continuously. Standard deviation of lane position was calculated for the 14 secondary task periods per drive. Estimates reflect averages across the 2 drives. However, for analyses, estimates for each drive were statistically modeled with a two-level drive variable.
Time frame: 6-months post-training
Number of Incidents, Crashes, and Near-crashes Recorded With DriveCam
The DriveCam device is an event-triggered palm sized pair of cameras that are mounted to the rear view mirror of the participant's car. The device has a forward-road facing camera and another camera that faces the driver. Both cameras continuously record but only save to memory when a built-in accelerometer exceeds a set g force threshold. Any g-force event that exceeds .6 g-force will be coded using codings of crashes (i.e., collision with another vehicle or object) or near-crashes (i.e., an evasive maneuver performed to avoid a MVC). This outcome will include the rate of crashes or near-crashes.
Time frame: 12 months
Number of DriveCam Events That Are Preceded by a 2 Second or Greater Glance Away From the Roadway
The DriveCam device has a forward-road facing camera and another camera that faces the driver. Both cameras record when a built-in accelerometer exceeds a set g force threshold of .6. Video event recordings of the driver were be coded for whether a 2-second or longer glance away from the roadway occurred during the recorded event. Using these codings, the number of events that included a 2-second or longer glance away from the roadway was determined for each group.
Time frame: 12 months