62 Clinical Trials for Various Conditions
The purpose of this study is to investigate if a person with weakness or paralysis in one or both arms, can use the NuroSleeve combined powered arm brace (orthosis) and muscle stimulation system to help restore movement in one arm sufficient to perform daily activities. This study could lead to the development of a product that could allow people with arm weakness or arm paralysis to use the NuroSleeve and similar devices to improve arm health and independent function.
This study will look to examine the overall performance of a custom fit knee or ankle brace as a means of providing ankle or knee joint support in subjects that have determined the need for bracing based upon chronic joint instability and/or joint swelling and pain following daily activity.
The purpose of this research study is to determine if there is a difference in shoulder or elbow pain between youth athletes who throw regularly without a brace, those who use a brace, and those who limit their throw count by placing the ball in a bucket during a 12-week study.
Scoliosis bracing is an effective treatment method for idiopathic scoliosis, but only if worn consistently for many hours a day. Unsurprisingly, brace discomfort is a significant deterrent against treatment adherence. For decades, custom braces for idiopathic scoliosis have been fabricated using one of three materials - copolymer, polypropylene, or polyethylene. The application of the biomechanical principles behind bracing have improved over the years, but the materials have not. The investigators' goal is to expand fabrication options by testing a 3D-printed scoliosis brace with variable flexibility. The aim is to improve patients' perceived brace comfort. After optimizing the brace design, the investigators will collect patient feedback about the design from currently braced participants. These participants understand what a standard brace feels like and will provide impactful feedback.
The goal of this clinical trial is to learn if a new ankle brace impacts athletic motions. The main questions it aims to answer are: * Does it impact motions such as running and cutting? * Is it comfortable? Researchers will compare 5 ankle bracing conditions. Participants will: * Perform a running activity * Perform a cutting activity * Complete a survey
The purpose of this study is to assess Anterior Cruciate Ligament (ACL) healing through analyzing clinical, radiographic, functional and patient-reported outcomes following ACL reconstruction with bone-tendon-bone autograft with and without internal bracing.
The Investigators are studying the effect of an ACL reconstruction on return to play by capturing outcome measures and biomechanics information.
The investigators hypothesize that the utilization of Incrediwear's Back Brace, compared to a sham brace and a standard-issue brace, will lead to better brace adherence, increased patient satisfaction, reduced pain medication usage, and improved functional disability among non-surgical chronic LBP patients.
This study seeks to compare two methods of trapeziectomy for basilar thumb arthritis. The first is trapeziectomy with ligament reconstruction and tendon interposition, which means removing the trapezium bone and filling the void with a tendon graft. This is the most commonly used procedure and the control group. The experimental group is trapeziectomy with suture tape suspension of the 1st metacarpal to the 2nd metacarpal. This is using a device called the InternalBrace, produced by Arthrex.
The routine application of hip brace following hip arthroscopy for femoroacetabular impingement syndrome (FAIS) has no proven clinical benefits. This study will investigate whether the application of hip brace affects the post-operative course and patient reported outcomes in patients undergoing hip arthroscopy for FAIS.
This study will examine clinical outcomes related to pain and function in patients with anterior knee pain (i.e. focal patella and/or trochlea cartilage defect(s), patellofemoral arthritis) before and after standard of care, non-surgical management with and without the addition of a Tri-Compartment Unloader (TCU) knee brace during activities of daily living. Randomly selected participants will wear a TCU brace for several weeks during physical therapy and activities of daily living that is designed to reduce compressive forces in all three compartments of the knee during weight-bearing flexion. Our hypothesis is that TCU bracing will improve clinical outcomes relatednto pain and function.
The purpose of this research is to help determine if use of the Guardian brace during prehab and post-op rehab after TKA can help improve functional outcomes and reduce the incidence of post-operative flexion contractures which reduce knee range of motion after surgery.
Over the course of a year from the start of the research study, twenty subjects will be randomized evenly into one of two groups after an informed consent is obtained: a traditional tight rope fixation group or a tight rope fixation with an anterior inferior tibiofibular ligament (AITFL) repair augmentation with an internal brace group. Postoperative reduction was assessed by 3D volumetric ratios and measured by weight-bearing CT at 6-weeks and 3-months post-operation. Patient Reported Outcomes (PROs) were collected preoperatively, and at 6-weeks, 3-months, 6-months, and 1-year post-operation and included the Foot and Ankle Outcome Score and the 36-Item Short Form Survey Instrument (RAND-36) . Differences in volumetric ratios and PROs were evaluated between groups and time periods.
The Green Sun Medical Dynamic Brace (GSM) brace was developed as an alternative to rigid thoracolumbosacral orthoses (TLSOs, braces) commonly used to prevent continued curve progression in patients with adolescent idiopathic scoliosis (AIS). The brace applies corrective forces to the muscular and bony structures of the spine while preserving range of motion (ROM). The innovative design of this brace should provide an equivalent degree of correction of the scoliotic curvature as a rigid TLSO, with increased acceptability to the patient via improved comfort and spinal/chest wall mobility. Increased acceptability promotes increased adherence to treatment. This is a pilot study to collect preliminary short-term data concerning the safety and performance of the GSM brace in a sample of subjects with AIS who are currently being treated with a TLSO. The study will use clinical exams, x-rays, monitoring equipment, and questionnaires to primarily assess safety and performance. Secondary endpoints include spinal ROM and lung vital capacity assessment, as well as data validation. The study involves 3 visits, a performance check phone call, and 4 follow up calls over a four month span. This is a pilot study and no formal hypothesis testing will be done. Descriptive statistics of selected variables will be calculated.
This is a single center, investigator initiated clinical trial using a FDA approved, marketed brace called DJO X4. This phase 4, prospective, randomized clinical trial is being conducted to evaluate the use of the X4 knee brace with the Motion Intelligence platform in patients having unilateral TKA. The study is designed to determine if using a "virtual rehabilitation" device leads to enhanced recovery following TKA by improving patient objective and subjective outcome measures.
To gather prospective safety and effectiveness data for the C-Brace System following the standard of care.
In vivo knee kinematics will be assessed for 20 subjects that have been clinically diagnosed with substantial unicompartmental osteoarthritis (OA) by one of the surgeons of Colorado Joint Replacement; this is the location from which participants will be recruited. The objective of this study will be to analyze subjects with symptomatic unicompartmental osteoarthritis under in vivo dynamic, weight-bearing conditions using video fluoroscopy to determine if present-day OA knee braces provide separation of the femoral condyle from the tibial plateau, thus avoiding excessive loads on the degenerative compartment.
The investigators are evaluating the effectiveness of custom-made 3D-printed ceramic (tooth-colored) brackets (braces) compared to conventional tooth-colored brackets (braces). Participants will be expected to come in for regularly scheduled appointments. They will be treated with tooth-colored braces and will need to come in every 4-6 weeks and will be randomly assigned to one of three groups. "Randomly" means by chance, like a coin toss. Neither participants nor the researchers may choose group assignments. Group 1 patients will have tooth-colored braces placed directly on each tooth by the clinician. Group 2 patients will have the braces placed on the teeth by using trays to fit them on. Group 3 patients will have customized 3D printed tooth-colored braces placed on their teeth, using trays to fit them on. If a participant is selected to be part of group 3, it may take up to two additional weeks for these 3D brackets to be printed and shipped and so this might delay treatment onset. Information on gender, age, and medical history of participants will also be obtained from the electronic health record.
Carpometacarpal osteoarthritis (CMC OA) is a prevalent and disabling disease. Trapeziectomy with ligament reconstruction and tendon interposition (LRTI), the most frequently performed procedure for CMC OA, requires prolonged postoperative immobilization which limits patients' abilities to perform Activities of Daily Life (ADLs) and to work. Trapezium excision and internal brace (IB) stabilization is a largely unstudied novel alternative to LRTI which has demonstrated encouraging short-term clinical outcomes and allows an expedited return to work/activity. In this feasibility and pilot grant application, our overall objective is to investigate critical questions to inform the planning of a definitive randomized controlled trial (RCT) comparing IB and LRTI for patients with CMC OA. Our central hypothesis is that a prospective RCT comparing LRTI and IB is feasible, and that IB will produce superior patient-reported outcomes to LRTI at 6 weeks and 3 months with an expedited return to work/activity. Our specific aims are to (1) Establish feasibility of a definitive trial by determining the proportion of eligible subjects who agree to randomized treatment and determining the follow-up retention rate, (2) Estimate effect sizes and variability in outcomes for planning a definitive RCT, and (3) Characterize objective clinical outcomes (thumb range of motion, grip/pinch strength, radiographic outcomes, complications/need for additional surgery, and cost) and to identify differences in return to work/activity following IB and LRTI. To achieve the study's aims, the investigators will randomize 50 patients as they present to the clinics of the 7 Washington University Orthopaedic Hand surgeons to LRTI (control) or IB (experimental). Patients will follow-up at 2 weeks, 4 weeks, 3 months, and 1 year post-operatively. Primary outcomes will be feasibility (randomization rate, follow-up retention rate), and PROMIS scores at 6 weeks and 3 months. Secondary outcomes will be objective clinical outcomes and return to work/activity. Upon completion of the study's aims, the investigators expect to demonstrate that a prospective, randomized trial comparing ligament reconstruction and tendon interposition (LRTI) and internal brace (IB) is feasible, and that patients who undergo IB will have superior short-term patient-reported outcomes to those who undergo LRTI. Furthermore, the study will generate effect size and variability estimates for a definitive, subsequent randomized controlled trial (RCT). Should the objectives for this study be successful, the IB procedure may be readily incorporated into the Hand surgeon's armamentarium as a viable option for the treatment of CMC OA, and the study will provide essential data to support informed, shared decision-making among patients and their physicians.
A randomized, repeated measures comparative design study to compare use of a micro-processor controlled knee-ankle-foot orthosis vs. traditional care knee-ankle-foot-orthosis (KAFO) models following discharge from inpatient rehabilitation.
This is a prospective observational single cohort trial quantifying time to radiographic union (primary endpoint) and convenience, satisfaction, pain and resource requirements (secondary) for patients with non-operatively treated distal radius fractures managed with a thermoformable Exos short-arm brace.
Prospective, international, multi-center, open-labeled, randomized, controlled cross-over trial to evaluate effectiveness and benefits in patients with lower limb impairment in activities of daily living comparing the C-Brace microprocessor-controlled stance and swing orthosis to standard of care use of knee ankle foot orthosis/stance control orthoses
The purpose of this study is to evaluate the effect of the Össur Rebound dynamic ACL brace on knee kinematics evaluated using dynamic stereo X-ray (DSX) imaging during functional activities. Brace performance will be evaluated before and after ACL reconstruction.
This is a pilot study to collect preliminary short-term data concerning the safety and performance of the Green Sun Dynamic brace in a sample of subjects with adolescent idiopathic scoliosis who are currently being treated with a TLSO.
A convenience sample of 20 participants, 18 years or older healthy individuals were recruited. Participants were excluded if they report being pregnant or being treated for a musculoskeletal injury. After explanation of the study and consent were obtained, each participant completed background information and the Cumberland Ankle Instability Tool (CAIT). Participants began by completing a 1 minute, 3mph walking gait assessment while unbraced, followed by a 2-minute, 6mph unbraced running assessment. Following the unbraced condition participants were randomly assigned into 1 of 4 conditions: \[1\] Active Ankle 329 Ankle Sleeve, \[2\] AS1Pro, \[3\] Eclipse 1, or \[4\] Eclipse 2. Participants placed an assigned brace on each ankle and then repeated the walking gait and running assessments. After this test the participants filled out a 10-item satisfaction questionnaire, and then were randomly assigned a second brace. The protocol was repeated until they have completed the walking, running, and satisfaction survey in all 4 brace conditions.
This is a prospective trial comparing improvements in pain, function, and quality of life in patients with early-stage knee osteoarthritis conservatively managed with the TriFit™ Web Knee Brace. The study design will represent a consecutive series of conservatively managed patients with knee-pain not yet candidates for surgical intervention and is non-comparative in nature.
This study is to learn more about braces that may help young athletes diagnosed with Sever's disease. Young athletes with this diagnosis who are seen by a Sports Medicine doctor will be asked it they want to be a part of the study. Patients who want to be in the study will be randomly assigned to wear one of two kinds of braces to treat their foot pain via randomization scheme independently created by a statistician. The subjects will be given the brace for free. The subjects will also answer survey questions about the brace when they first see the doctor, then at one, two, and three months after their first visit. Data collected in this study will help doctors gain a better understanding of how to treat young athletes who do sports without shoes who are diagnosed with Sever's disease.
To compare the functional and anatomical outcomes, and patient satisfaction and compliance between two different postoperative immobilization methods - abduction shoulder brace versus simple arm sling - following 2 common shoulder surgical procedures - rotator cuff repair (RCR) and reverse total shoulder arthroplasty (RTSA) through a prospective randomized clinical trial.
The overall aim of the study is to utilize a novel device and smartphone application in order to improve measurement of patient compliance with at-home bracing for scoliosis as well as create a more accurate assessment of brace fit via continuous and objective measures of tension. These ground-breaking metrics will provide analyzable data to more accurately reflect and predict actual patient compliance as well as allow for further exploration of how to increase compliance, and thus, efficacy of bracing; it will additionally allow both physicians and patients to have a more reliable measure for brace fit by providing them with continuous data of fit via tension, and provide built-in feedback mechanisms to the patient to ensure proper tightness of the brace. Additionally, the study will investigate whether providing the wearer's own brace-wear compliance information directly to the patient and their caregiver(s) via the mobile app will further improve rates of compliance as compared to those who do not receive the same feedback mechanism.
The purpose of this study is to determine the effect of a valgus unloader brace condition on the acute change in medial femoral condyle cartilage morphology using Ultrasound following a standardized walking protocol.