Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT04978363 |
| Other study ID # |
202101408 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
October 5, 2021 |
| Est. completion date |
January 27, 2022 |
Study information
| Verified date |
April 2023 |
| Source |
University of Iowa |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The proposed study evaluates the effects of a hands free crutch (iWalkFree, Inc.) on walking
balance and stability compared to standard crutches. It is expected that the hands free
crutch will provide better stability during walking on a level surface and better reported
balance confidence compared to standard crutches. In this study, walking stability will be
assessed using motion capture data from an infrared camera system with 12 mounted cameras
surrounding a level walkway. Balance will be assessed through a self-reported
activity-specific balance confidence (ABC) questionnaire. An improved understanding of the
effects of the hands free crutch on gait may benefit the future prescription of ambulatory
assistive devices. The proposed study may provide insight that can be used by physical
therapists and other providers to select the ambulatory assistive device that best meets
their patients' needs.
Description:
The purpose of this study is to compare the hands free crutch (HFC) to standard axillary
crutches (SACs) with and without a walking boot, using outcomes related to walking stability,
balance confidence, patient preference, device comfort, and any reported pain while using the
devices.
Healthy, able-bodied individuals will wear a walking boot to simulate a below knee injury or
post-surgery condition during participation. They will maintain a non-weight bearing status
while completing the 4 research conditions in randomized order: 1) BOOT, 2) HFC + BOOT, 3)
SAC + BOOT, or 4) NONE.
Participants will complete 5 total sessions, with 4 biomechanics data collection sessions
corresponding to the 4 conditions. At the first visit, participants will complete pre-consent
screening and consent paperwork. Then they will be randomized to the 4 conditions above, and
anthropometric (body height, weight/mass, leg length, shoe length and width) and demographic
data will be collected. Participants will accommodate overnight to each of the 4 study
conditions before testing. If participants are randomized to the NONE condition first, they
will have the option of completing testing in that condition (no Boot) at the initial visit.
The primary dependent measure is whole body angular momentum, an objective measure of walking
stability.
Data will be collected using over 50 small reflective markers placed on the participants and
the assistive devices, a computerized motion capture system and force plates embedded in the
floor. The force plates capture ground reaction forces which will be used to calculate joint
moments for interpretation of angular momentum data. The motion capture system will be used
to evaluate joint and segment kinematics and temporal-spatial data to characterize the gait
pattern in each condition and calculate angular momentum.
The second purpose of this research study is to determine the effect of crutch use on
participant reported balance confidence and device preference. A validated balance confidence
questionnaire and participant satisfaction, comfort and preference will be used to compare
between conditions. A numerical pain rating scale (0-10) will be used to assess for any
reported pain in all of the conditions.
The third purpose of this research is to determine the effect of crutch (HFC and SACs) and
boot (with and without) use on walking stability as measured by whole body and segmental
angular momentum during gait. Two additional conditions are added to address this purpose
(HFC NO BOOT and SAC NO BOOT), resulting in a total of 6 research conditions:
1) BOOT, 2) HFC + BOOT, 3) SAC + BOOT 4) NONE, 5) HFC NO BOOT, 6) SAC NO BOOT The HFC NO BOOT
condition will be evaluated at the end of the HFC + BOOT session, and the SAC NO BOOT
condition will be evaluated at the end of the SAC + BOOT session to stay within the fiscal
and logistical constraints of the project. Previously described methods will be used.
Ultimately, this study could assist physical therapists and other providers in the clinical
prescription and application of such devices.