Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT06437665 |
| Other study ID # |
R5570A12 |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
June 1, 2024 |
| Est. completion date |
December 31, 2025 |
Study information
| Verified date |
May 2024 |
| Source |
Western University, Canada |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The tech-wise driver: Exploring the sustained efficacy and technology acceptance of targeted
ADAS for older drivers A significant percentage of road traffic fatalities registered in
Canada occurred among older adults. According to the studies, the Advanced Driver Assistance
Systems (ADAS) can enhance the safety and mitigate the age-related declines of older drivers.
Whether sustained use results in declines in driving performance in older drivers relying on
ADAS remains largely unexplored. This is problematic given emerging evidence on ADAS use by
older drivers. Furthermore, exploring changes in ADAS technology acceptance in relation to
sustained use can inform the correlation between perceived safety and intention to use.
The investigators hypothesize that, compared to driving simulator training alone, lane
departure warning (LDW), cruise control (CC), and forward proximity warning (FPW) technology
will result in a sustained decrease of critical driving errors in this population; and that
exposure to the technology will increase participants' perceived usability and ease of use.
To achieve this goal, the investigators will explore the determination of sustained efficacy,
establish the impact of technology exposure, evaluate the concurrent validity of a
computerized model of driving error type and severity using trained occupational therapy
in-vehicle evaluation as the criterion, when evaluating older drivers 'performance.
Our findings may significantly impact the ability of older drivers to choose in-vehicle
technologies, and our study will be the first to assess the criterion validity of a
simulator-derived computerized model against the findings of an evaluator-based functional
assessment.
Description:
The driving simulator will be used to collect data on drivers in driving scenarios that
include situations that may be more challenging for some drivers, e.g., pedestrian stepping
into a crosswalk, a vehicle pulling out of a parking spot, a vehicle suddenly changing lanes.
Vehicle data and gaze data will be collected for drivers along with images from the simulated
environment. The simulator will measure driving performance through metrics generated from
the simulator, e.g. pedal (i.e., gas and brake) reaction time, vehicle velocity, headway
distance/time, etc.
Participants: Licensed older drivers (≥65 years of age) will be included in this study.
Participants will be excluded if they have neurological or psychiatric conditions that would
preclude full participation in driving activity, or if they take medications that may have a
sustained negative impact on their mental and/or physical functioning during driving.
Sample Size: A sample size of n=68 will be recruited to achieve 80% power to detect a medium
effect size of .50 based on a two-sided significance test with a significance level of 0.05.
Procedure:
1. Interested potential participants will reach to the team, using the information
distributed during recruitment.
2. Upon confirm eligibility criteria, the first session will be scheduled.
3. Participants will receive a parking pass to park on the premises.
4. The first session will take approximately 1 hr to complete.
5. The objective of the study will be reviewed with each participant and they will be shown
the simulator.
2.b. Participants will complete a battery of paper and pencil and computer tests. Of these
tests, the first will be vision screening testing to make sure they meet inclusion criteria.
Visual acuity (monocular and binocular) will be assessed via Snellen vision charts; visual
acuity, peripheral fields, contrast sensitivity, color discrimination, depth perception,
lateral phorias and vertical phorias will be assessed via the Optec 5000® Visual Analyzer
(Stereo Optical Company, Inc., Chicago, IL). After vision screening, participants will
complete an intake form. This is a standardized intake form adapted by the research team
which will collect the following information: age, gender, preferred method of contact
information for scheduling purposes, self-identified ethnicity, level of education,
occupation, and medications. The questions regarding ethnic origin and population group are
based on Statistics Canada updated standards.
2.c. Driving History and Habits: The participants will complete several tests germane to
their driving history. First, participants will complete a driving history form adapted by
the research team (based on Ali et al., 2014). The form will collect information in three
sections. Section one will include age at which participants obtained their first license,
type of vehicle participants normally drive, whether participants have been involved in a
motor vehicle crash and previous use of ADAS technology. Second, participants will complete
the computer-based Useful Field of View (UFOV). The UFOV is a standardized test which
assesses visual perception and attention (Edwards et al., 2005). This test has shown to be
correlated with driving performance among older drivers. The UFOV consists of three subtests
that assess attention, divided attention, and selective attention. Finally, the participants
will complete the Comprehensive Trail Making Test (CTMT), a normed test in which participants
are presented with a standardized set of five visual search and sequencing tasks using pen
and paper (Reynolds, 2002).
Rapid Pace Walk Administration: A physical assessment involving walking at a brisk pace,
potentially used to evaluate gait and mobility, which can impact a person's ability to
operate pedals and controls in a vehicle.
Finger to Nose Administration: A motor coordination test where the participant touches their
nose with their finger, assessing fine motor skills and coordination relevant for tasks like
steering and operating switches while driving.
Adelaide Self-Efficacy Driving Scale: A self-report questionnaire assessing the participant's
confidence and perceived ability in various driving situations, helping to understand their
subjective assessment of their driving skills.
Modified Simulator Sickness Questionnaire: A questionnaire measuring symptoms of simulator
sickness or discomfort experienced during driving simulation sessions, important for
evaluating the usability and comfort of simulation-based assessments.
Driving Simulation Evaluation Form: A structured form or checklist used to evaluate the
participant's performance and behavior during driving simulation scenarios, providing
objective data on driving skills and behaviors.
Manchester Driving Behavior Questionnaire: A questionnaire assessing self-reported driving
behaviors and attitudes, offering insights into the participant's driving style, risk
perception, and adherence to traffic rules.
The post-assessment tests generally involve reassessing specific aspects measured during the
baseline assessment or evaluating any changes or improvements following interventions or
training.
2.d. Following these tests, participants will complete their simulation drives. The
investigators will employ a clinical driving simulator (DriveSafety Inc., Salt Lake City,
UT). Prior to each drive, participants will be exposed to an acclimation drive. Acclimation
drives are part of a mitigation protocol aimed at reducing the likelihood of participants
experiencing discomfort caused by simulation. Such drives last no longer than 7 minutes, and
slowly introduce the participant to the simulation, starting with simple maneuvers (e.g.,
accelerate ad stop) and progressively introducing more complex maneuvers (e.g. turning).
2.e. Each Participants will then complete a randomized 15-minute drive. Participants will
then take part in three sets of four training sessions in which the ADAS will be simulated
(experimental group) or a training script will be provided (control). After each set of four
drives, a simulator assessment post-test will be completed with the final post-test also
including the battery of clinical assessments. Available routes will be randomly allocated
and counterbalanced across participants. All drives will be recorded (frontal view of the
driver as well as simulated drive). Once a participant has completed all drives, the
recordings will be sent to a blinded trained evaluator (occupational therapist and driving
rehabilitation specialist). The study will use a high-fidelity clinical driving simulator
(DriveSafety Inc) configured with three 19 inch flat-panel displays; 110-degree field of
view; 1920 x 1080 pixels/screen. Raw files will be used to develop and compute the model for
comparison. The drive using the simulator will be recorded (mp4). This will allow the
post-drive evaluation of the number and type of driving errors conducted by the research
team. In addition to recording the simulation drive, a camera located in the simulator
records the face of the driver to enable scoring of visual scanning errors. All video files
are stored in the password protected research drive connected to the simulator computer in
the research lab, and only accessible to members of this research team. There will also be a
stereo camera attached to the simulator for collecting gaze information of the driver. This
camera is connected to a computer running gaze analysis software and records only the gaze
directions (as vector in the 3D space of the camera) and head direction (also a vector in the
3D space of the camera). This data is numeric and will be stored using the identifier
assigned to the participant; no images are collected from this camera. Prior to and after
each drive, the Adapted Motion Sickness Questionnaire will be used to monitor for any signs
of simulator sickness. If a participant scores over 5 in any of the items, the session will
be suspended, the participants remunerated and provided with access to water, ginger ale,
crackers, and cool room. No further drives will be attempted to avoid any risk of increasing
simulator sickness.
2.f. After the driving session, the research team will thank the participant and provide
remuneration.
3.In order to give the team access to the driving simulator metrics of each drive, a password
protected One Drive folder within Western's license will be used. Only deidentified driving
simulator data will be uploaded to the One Drive.
