Objective Dual-task Turning Measures for Return-to-duty Assessments
Status: | Active, not recruiting |
---|---|
Conditions: | Neurology, Neurology |
Therapuetic Areas: | Neurology |
Healthy: | No |
Age Range: | 18 - 50 |
Updated: | 3/29/2019 |
Start Date: | September 1, 2018 |
End Date: | September 2022 |
The overall objective is to evaluate objective dual-task turning measures for use as
rehabilitative outcomes and as tools for return-to-duty assessments in individuals with mild
traumatic brain injury (mTBI).This project consists of three goals examining the I)
Diagnostic Accuracy, II) Predictive Capacity, and III) Responsiveness to Intervention of dual
task turning measures in individuals with mTBI.
The investigators hypothesize that objective measures of dual-task turning will have high
diagnostic accuracy, predictive capacity, and responsiveness to intervention in people with
mTBI.
rehabilitative outcomes and as tools for return-to-duty assessments in individuals with mild
traumatic brain injury (mTBI).This project consists of three goals examining the I)
Diagnostic Accuracy, II) Predictive Capacity, and III) Responsiveness to Intervention of dual
task turning measures in individuals with mTBI.
The investigators hypothesize that objective measures of dual-task turning will have high
diagnostic accuracy, predictive capacity, and responsiveness to intervention in people with
mTBI.
The purpose of this project is to expand the investigators' prior preliminary work on
wearable sensors to evaluate objective dual-task turning measures for use as rehabilitative
outcomes and as tools for objective return-to-duty assessments following mild traumatic brain
injury (mTBI). The investigators will assess the diagnostic accuracy, predictive capacity,
and responsiveness to intervention of measures obtained from clinically feasible, dual-task
turning tasks in an effort to evaluate the utility of turning measures for clinical
return-to-duty decisions.
This study is divided into two phases. For phase one, participants will be recruited from the
general populations surrounding four sites (Oregon Health & Science University, the
University of Utah, Courage Kenny Research Center, and Fort Sam Houston), including active
duty service members at Fort Sam Houston. For phase two, participants will be recruited from
active duty service members referred to military medical treatment facilities (Warrior
Recovery Center, Madigan Army Medical Center) for vestibular rehabilitation following mTBI.
Phase One: Fifty civilian individuals with mTBI, 50 healthy control individuals, and 40
healthy control active duty service members will be recruited for phase one. Participants
will complete a battery of clinical, neuropsychological, and balance tests, including three
clinically feasible turning tasks while wearing inertial sensors. The investigators will
evaluate the capability of objective, dual-task turning measures to discriminate between
healthy controls and people with chronic mTBI, determine clinically relevant measures of
dual-task turning based on clinometric properties (e.g., minimum detectable change), and
determine whether active-duty SMs perform dual-task turning tasks differently than civilians,
assess the capacity of dual-task turning measures to predict performance in a
civilian-relevant task, and assess the capacity of dual-task turning measures to predict
performance in a military-relevant task.
Phase Two: Forty active-duty service members with mTBI referred to vestibular rehabilitation
at the Warrior Recovery Center or Madigan Army Medical Center will be recruited for phase
two. Participants will complete a selected turning task from phase one at the beginning and
end of the treatment. The investigators will determine the clinically important difference of
turning outcomes and compare the effect of rehabilitation to the minimum detectable change
for each outcome.
wearable sensors to evaluate objective dual-task turning measures for use as rehabilitative
outcomes and as tools for objective return-to-duty assessments following mild traumatic brain
injury (mTBI). The investigators will assess the diagnostic accuracy, predictive capacity,
and responsiveness to intervention of measures obtained from clinically feasible, dual-task
turning tasks in an effort to evaluate the utility of turning measures for clinical
return-to-duty decisions.
This study is divided into two phases. For phase one, participants will be recruited from the
general populations surrounding four sites (Oregon Health & Science University, the
University of Utah, Courage Kenny Research Center, and Fort Sam Houston), including active
duty service members at Fort Sam Houston. For phase two, participants will be recruited from
active duty service members referred to military medical treatment facilities (Warrior
Recovery Center, Madigan Army Medical Center) for vestibular rehabilitation following mTBI.
Phase One: Fifty civilian individuals with mTBI, 50 healthy control individuals, and 40
healthy control active duty service members will be recruited for phase one. Participants
will complete a battery of clinical, neuropsychological, and balance tests, including three
clinically feasible turning tasks while wearing inertial sensors. The investigators will
evaluate the capability of objective, dual-task turning measures to discriminate between
healthy controls and people with chronic mTBI, determine clinically relevant measures of
dual-task turning based on clinometric properties (e.g., minimum detectable change), and
determine whether active-duty SMs perform dual-task turning tasks differently than civilians,
assess the capacity of dual-task turning measures to predict performance in a
civilian-relevant task, and assess the capacity of dual-task turning measures to predict
performance in a military-relevant task.
Phase Two: Forty active-duty service members with mTBI referred to vestibular rehabilitation
at the Warrior Recovery Center or Madigan Army Medical Center will be recruited for phase
two. Participants will complete a selected turning task from phase one at the beginning and
end of the treatment. The investigators will determine the clinically important difference of
turning outcomes and compare the effect of rehabilitation to the minimum detectable change
for each outcome.
Inclusion criteria.
Participants may be active duty (at FSH), Veterans or non-Veterans or a civilian and must:
1. have a diagnosis of mTBI based upon VA/DoD criteria
2. be between 18-50 years-old,
3. be outside of the acute stage (> 3 weeks post-concussion) according to the VA/DoD
clinical practice guidelines but within 3 years of their most recent mTBI and still
reporting symptoms.
Exclusion criteria.
Participants must not:
1. have had or currently have any other injury, medical, or neurological illness that
could potentially explain balance deficits (e.g., central or peripheral nervous system
disease, stroke, greater than mild TBI, lower extremity amputation, recent lower
extremity or spine orthopedic injury requiring a profile)
2. meet criteria for moderate to severe substance-use disorder within the past month, as
defined by DSM-V,
3. display behavior that would significantly interfere with validity of data collection
or safety during study,
4. be in significant pain during the evaluation (7/10 by patient subjective report),
5. be a pregnant female (balance considerations), or
6. unable to communicate in English.
We found this trial at
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sites
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3181 Southwest Sam Jackson Park Road
Portland, Oregon 97239
Portland, Oregon 97239
503 494-8311
Oregon Health and Science University In 1887, the inaugural class of the University of Oregon...
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University of Utah Research is a major component in the life of the U benefiting...
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