Spinal Cord Injury Clinical Trial
Official title:
Computer-based and Virtual Assessment of Power Wheelchair Mobility
The purpose of this research study is to examine whether computer based or virtual reality
based driving assessments are as useful as real-world power wheelchair driving tests in
measuring driving performance and whether they may be useful in helping to identify the
problems that some individuals may have with driving power wheelchairs. The specific aims
are as follows:
Specific Aim 1: To develop computer-based and VR-based wheelchair driving assessments for
both drivers and non-drivers that correspond to an accepted real-world driving assessment
(Power Mobility Road Test) and compare them to the real-world assessment and to each other.
Specific Aim 2: To develop additional features of the computer-based and VR-based
assessments that present dynamic tasks and determine whether skills on these tasks can be
delineated within the virtual environment.
This study has an experimental, repeated measures design with validity and reliability
testing. In Phase 1 of the study, we designed and developed the software needed to deliver
the computer-based and VR-based testing environments. In Phase 2 of the study, we improved
on the design iterations of Phase I, recruited a sample of 31 Electric Power wheelchair
(EPW) users and delivered the simulator based driving assessment using a pool of clinicians
to assess the reliability of system in real world and in the virtual environments.
Phase II: Research Protocol:
Experimental Set-up:
VRSIM consisted of two display options, three 6' X 8' back projected screens (field of view
160°) (VR screens) and a single 22" desktop monitor (field of view 90°) (PC screens), both
with the first-person perspective viewpoint (Fig.1). The virtual environment consisted of a
simulation of an indoor office space with a kitchen; a lounge area and set of hallways lined
by offices, and incorporated the tasks of the PMRT (Fig.2). Participants interacted with
VRSIM either using dual rollers that interfaced with drive wheels of the wheelchair
('Rollers ON' driving mode) or using an instrumented wheelchair joystick through a custom
software ('Rollers OFF' driving mode). The custom software uses a proportional derivative
mathematical model to simulate the real-world motion of the EPW within the virtual
environment. VRSIM was designed with two display options and two user input modalities to
assess the feasibility of using such a system with different interfaces in different
settings, such as in a busy wheelchair clinic (using the much immersive VR screens with
rollers) or in a user's home (with the user's personal computer and the customized
joystick).
The "actor/driver" in the VRSIM was a virtual model of a person sitting in a standard
commercially available EPW power wheelchair (width 0.671 m, length 0.701 m). A horizontal
slider bar that indicated the real time location of the virtual wheelchair with respect to
virtual obstacles was added to this version (Fig.1, 2). This helped display warnings when
the chair was too close to obstacles, especially when the obstacles were behind the driver.
Participants were expected to drive along the course indicated by arrows touching or passing
through preset milestone markers signified by semi-transparent balloons. These sequentially
displayed milestones defined the tasks of the virtual PMRT. Participants were instructed to
complete every task as quickly and accurately as possible. An equivalent PMRT driving course
was charted out in an office space for the real world driving evaluation.
Data collection:
After informed consent, participants performed up to 2 practice sessions within the virtual
driving course. Participants reported their level of comfort and sense of being in control
in the VRSIM during practice based on which a value between 1.0 and 4.0 was selected for the
linear and angular speed gains in VRSIM. In addition, participants were asked to select a
different pre-programmed driving profile on their wheelchairs (e.g. "indoor" profile), which
was similar to their everyday driving profile to obtain optimum driving speed. Optional
breaks for 5-10 minutes were provided between driving sessions. For both the PC and VR
screens, participants drove through the complete driving course: two trials with the Rollers
ON driving mode, one trial with the Rollers OFF driving mode, and one trial in the
real-world PMRT driving course constituted to a total of 5 driving conditions (Table 1). A
balanced randomization scheme was used to set the order of the five driving conditions.
From a group of 6 clinicians comprised of 1 occupational therapist, 3 physical therapists,
and 2 physicians, 2 clinicians were randomly assigned as the evaluation team for each
participant. The team always had 1 certified Assistive Technology Professional with more
than 5 years of experience in power wheelchair driving evaluations. The assigned clinicians
independently scored every PMRT task during all the driving trials using the following
criteria: 4: completed independently, 3: completed hesitantly requiring several trials and
minor accidents, 2: commits serious accidents that may cause harm to driver or other people,
1: unable to complete a task. Each clinician had a separate PMRT scoring sheet for each
trial.
Repeat Testing:
Subjects underwent all five testing scenarios twice, returning on a second visit in no
earlier than 2 weeks.
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Observational Model: Cohort, Time Perspective: Prospective
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