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This study will compare standard of care of home exercise for running rehabilitation to the combined treatment of home exercise with an individually provided four-session virtual physical therapy support program intervention on pain and physical function movements (controlled dual and single leg squat and lateral hopping in individuals post running injury. These collective findings will help provide new evidence of the responses to an individually provided virtual PT interventions among runners.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| paper-based standard care exercise program | No Intervention | ||
| VPT | Experimental |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| VPT | Behavioral | The VPT will be comprised of weekly virtual visits with the participant for one month. During the visits, the physical therapist will review the exercises that were prescribed, adherence, provide feedback to the participant as they execute the exercises onscreen and make corrections, make any progression or adjustments to the exercises, review running cues they learned from the testing session and answer any questions. The therapist will also review any new activities that are initiated during the previous week (to control for confounders), changes in musculoskeletal pain and participation in running volume. |
| Measure | Description | Time Frame |
|---|---|---|
| Change from baseline numerical rating scale for pain (NRSpain) at 4 weeks | A numerical rating scale for pain (NRSpain) will be used to assess changes in lower body related musculoskeletal pain at rest (now, average over the last week) and during weight bearing activity (like walking) on a range of lowest score of 0 (no pain) to 10 (worst pain) | Visits 6; one month post enrollment |
| Change from baseline numerical rating scale for pain (NRSpain) at 6 months | A numerical rating scale for pain (NRSpain) will be used to assess changes in lower body related musculoskeletal pain at rest (now, average over the last week) and during weight bearing activity (like walking) on a range of lowest score of 0 (no pain) to 10 (worst pain) | Visits 7; six months post enrollment |
| Measure | Description | Time Frame |
|---|---|---|
| Change from baseline squat quality on single leg (using dominant leg) at 4 weeks | Squat performance on the single leg (using dominant leg) will be scored on a range of scale 1 (best performance) to 3 (worst performance) | visit 6; one month post enrollment |
| Change from baseline squat quality on single leg (using dominant leg) at 6 months |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Sharareh PhD, PT | Contact | 3522738453 | sharareh75@ufl.edu |
| Name | Affiliation | Role |
|---|---|---|
| Sharareh Sharififar, PhD, PT | University of Florida | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| University of Florida College of medicine- Dept of PM&R | Recruiting | Gainesville | Florida | 32607 | United States |
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Squat performance on the single leg (using dominant leg) will be scored on a range of scale 1 (best performance) to 3 (worst performance) |
| visit 7; six months post enrollment |
| Change from baseline squat quality on the dual leg at 4 weeks | Squat performance on the dual leg will be scored on a range of scale 1 (best performance) to 3 (worst performance) | visit 6; one month post enrollment |
| Change from baseline squat quality on the dual leg at 6 months | Squat performance on the dual leg will be scored on a range of scale 1 (best performance) to 3 (worst performance) | visit 7; six months post enrollment |
| Change from baseline standing stork quality (using dominant leg) at 4 weeks | Balance performance on the standing stork will be scored on the ranges of excellent to poor scale compared to the normative data published for males/females (Schell & Leelarthaepin 1994) | visit 6; one month post enrollment |
| Change from baseline standing stork quality (using dominant leg) at 6 months | Balance performance on the standing stork will be scored on the ranges of excellent to poor scale compared to the normative data published for males/females (Schell & Leelarthaepin 1994) | visit 7; six months post enrollment |
| Change from baseline hopping quality (using dominant leg) at 4 weeks | Quality performance on the hopping three times (using dominant leg) and land on the same limb as far as possible will be scored based on the distance hopped, measured at the level of the great toe on a range of scale 1 (best performance) to 3 (worst performance) | visit 6; one month post enrollment |
| Change from baseline hopping quality (using dominant leg) at 6 months | Quality performance on the hopping three times (using dominant leg) and land on the same limb as far as possible will be scored based on the distance hopped, measured at the level of the great toe on a range of scale 1 (best performance) to 3 (worst performance) | visit 7; six months post enrollment |
| Change from baseline displacement in forward-backward direction during 20 sec of static standing position at 4 weeks | A markerless motion system will be used. Cameras will be used to collect the backward-forward displacement during 20 sec of static standing on both legs will be analyzed for ability to control static balance. | visit 6; one month post enrollment |
| Change from baseline displacement in forward-backward direction during 20 sec of static standing position at 6 months | A markerless motion system will be used. Cameras will be used to collect the backward-forward displacement during 20 sec of static standing on both legs will be analyzed for ability to control static balance. | visit 7; six months post enrollment |
| Change from baseline gait speed at 4 weeks | Spatiotemporal parameters are analyzed [i.e. gait speed (meters/sec), cadence (steps/minute)] | visit 6; one month post enrollment |
| Change from baseline gait speed at 6 months | Spatiotemporal parameters are analyzed [i.e. gait speed (meters/sec), cadence (steps/minute)] | visit 7; six months post enrollment |
| Change from baseline displacement of the center of gravity in vertical direction at 4 weeks | Spatiotemporal parameters are analyzed (i.e. center of gravity vertical displacement measured in centimeters) | visit 6; one month post enrollment |
| Change from baseline displacement of the body in vertical direction at 6 months | Spatiotemporal parameters are analyzed (i.e. center of gravity vertical displacement measured in centimeters) | visit 7; six months post enrollment |
| Change from baseline displacement between strides at 4 weeks | Spatiotemporal parameters are analyzed (i.e. stride width measured in centimeters) | visit 6; one month post enrollment |
| Change from baseline displacement between strides at 6 months | Spatiotemporal parameters are analyzed (i.e. stride width measured in centimeters) | visit 7; six months post enrollment |