This study will investigate a video assisted, home therapy program where participants complete hand therapy on their own following thumb arthroplasty. In this program, participants will receive prerecorded informational videos. Half of the participants in this study will do standard of care, in-person therapy. The other half will be enrolled in the home therapy program. Participants will fill out an assessment of their physical ability before surgery and again three months after surgery. These assessments will be compared between groups. The study team hypothesizes that the video-assisted, home therapy program will be noninferior to traditional in-person therapy.
Current postoperative hand therapy regimens can be burdensome to patients and non-compliance rates are high. Our service area has a lack of hand therapists in the rural areas and the most common barrier to receiving care is access and transportation. In-person therapy requires patients to have significant flexibility in transportation, work schedule and childcare. Travel time and distances put patients who are already disadvantaged at an increased risk of failed treatment. Furthermore, our hand therapy clinics have high utilization after first CMC arthroplasty (thumb joint replacement) procedures, for which therapy is protocol-driven and results are predictable-two aspects that lend this procedure to amenable results from a virtual, unsupervised program. This study's central hypothesis is that video assisted therapy can be used in postoperative hand therapy without a change in subject outcomes. In this study, the investigators choose to study therapy for one of the most common postoperative diagnoses seen in Carilion Clinic's hand therapy clinics: thumb arthroplasty (replacement of a thumb joint). Specific Aim 1 is to determine if a video-assisted, home therapy program (pre-recorded instructional videos) can effectively replace in-person occupational therapy for thumb arthroplasty. Hypothesis: Outcomes of a therapy program consisting of pre-recorded instructional videos will be noninferior to the standard of care regimen for thumb arthroplasty. The significance of this study is that it investigates a home therapy solution that the investigators expect to increase access to healthcare in rural populations. This study is novel because it will be the first prospective, randomized control trial to investigate the utility of video-assisted home therapy following hand surgery.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
67
Subjects will follow along with prerecorded therapy videos.
Carilion Clinic Orthopaedic Surgery
Roanoke, Virginia, United States
Upper extremity function, as assessed by the change in Patient-Reported Outcomes Measurement Information System (PROMIS) v. 2.0 Upper Extremity assessment.
Improvement in PROMIS upper extremity score from baseline. PROMIS scores are translated into t-scores and range from 0 (worst possible function) to 100 (best possible function). Positive improvement values indicate improvement in function. Negative values indicate a decline in function.
Time frame: Change from baseline to Day 90 after surgery.
Upper extremity function, as assessed by the change in Patient-Reported Outcomes Measurement Information System (PROMIS) v. 2.0 Upper Extremity assessment.
Improvement in PROMIS upper extremity score from baseline. PROMIS scores are translated into t-scores and range from 0 (worst possible function) to 100 (best possible function). Positive improvement values indicate improvement in function. Negative values indicate a decline in function.
Time frame: Change from baseline to Day 365 after surgery.
Pain interference, as assessed by the change in Patient-Reported Outcomes Measurement Information System (PROMIS) v. 1.0 Pain Interference 6a.
Difference in PROMIS pain interference score from baseline. PROMIS scores are translated into t-scores and range from 0 (minimum pain interference) to 100 (maximum pain interference). Negative differences from baseline indicate improvement in pain interference. Positive differences from baseline indicate worsening of pain interference.
Time frame: Change from baseline to Day 90 after surgery.
Pain interference, as assessed by the change in Patient-Reported Outcomes Measurement Information System (PROMIS) v. 1.0 Pain Interference 6a.
Difference in PROMIS pain interference score from baseline. PROMIS scores are translated into t-scores and range from 0 (minimum pain interference) to 100 (maximum pain interference). Negative differences from baseline indicate improvement in pain interference. Positive differences from baseline indicate worsening of pain interference.
Time frame: Change from baseline to Day 365 after surgery.
Grip strength
Improvement in grip strength from baseline in operative hand. Measured in pounds force with a dynamometer. A positive change indicates gain of strength.
Time frame: Change from baseline to Day 90 after surgery.
Key pinch strength
Improvement in key pinch strength from baseline in operative hand. Measured in pounds force with a dynamometer. A positive change indicates gain of strength.
Time frame: Change from baseline to Day 90 after surgery.
3-finger pinch strength
Improvement in 3-finger pinch strength from baseline in operative hand. Measured in pounds force with a dynamometer. A positive change indicates gain of strength.
Time frame: Change from baseline to Day 90 after surgery.
Thumb radial abduction
Improvement in thumb radial abduction from baseline in operative thumb. Measured in degrees with a goniometer. A positive change indicates gain of motion.
Time frame: Change from baseline to Day 90 after surgery.
Thumb palmer abduction
Improvement in thumb palmer abduction from baseline in operative thumb. Measured in degrees with a goniometer. A positive change indicates gain of motion.
Time frame: Change from baseline to Day 90 after surgery.
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