105 Clinical Trials for Various Conditions
Traumatic, debilitating anterior cruciate ligament (ACL) injuries occur at a 2 to 10-fold greater rate in female than male athletes. Consequently, there is a larger population of females that endure significant pain, functional limitations, and radiographic signs of knee osteoarthritis (OA) within 12 to 20 years following injury. To reduce the burden of OA, The National Public Health Agenda for Osteoarthritis recommends expanding and refining evidence-based prevention of ACL injury. Specialized training that targets modifiable risk factors shows statistical efficacy in high-risk athletes; however, clinically meaningful reduction of risk has not been achieved. A critical barrier that limits successful training outcomes is the requirement of qualified instructors to deliver personalized, intuitive, and accessible feedback to young athletes. Thus, a key gap in knowledge is how to efficiently deliver objective, effective feedback during training for injury prevention. The investigators long-term goal is to reduce ACL injuries and the subsequent sequela in young female athletes. The overall objective of this proposal is to implement and test innovative augmented neuromuscular training (aNMT) techniques to enhance sensorimotor learning and reduce biomechanical risk factors for ACL injury. The rationale that underlies this proposal is that, after completion, the investigators will be equipped to more effectively deliver biofeedback and decelerate the trend of increasing ACL injury rates in female athletes. This contribution will be significant for the reduction of the long-term sequel following ACL injury in young females.
Anterior cruciate ligament repair using hamstring autograft in children is a painful orthopedic procedure. The current practice to provide analgesia for this procedure include femoral continuous perineural infusion and femoral single shot peripheral nerve block, along with perioperative opioids and NSAIDS both IV and orally. Since the use of opioids can be associated with adverse side effects, which include, but are not limited to nausea, vomiting, constipation, pruritus and respiratory depression, comparing the amount of opioid used with either analgesia delivery method is needed.
This study will evaluate the bio-mechanical and biochemical abnormalities in acute ACL-injured knees over time. Data will be collected through advanced quantitative MR imaging, functional testing, and bio-specimen collection. Researchers will collect this data from the time of baseline visit, which is within 28 days of injury, through the temporal sequence of post-operative or post-injury recovery and return to activity. The hypotheses for this study are (1) that T1ρ and T2 will be significantly elevated in the lateral side of ACL-injured knees immediately after injury (indicating damage caused by initial injury), and will not fully recover at 6-month, 1-year follow ups; (2) that T1ρ and T2 will be significantly elevated in the medial side of ACL-injured knees at 1-year follow-up; and (3) that differences in the bio-marker expression patterns can be correlated with the initial MRI findings, which would provide information regarding the full spectrum of intra-articular pathology and the subsequent clinical outcomes.
The primary purpose of this study is to determine the interrater reliability and validity of the Sportcord Test as a measure of physical performance following anterior cruciate ligament (ACL) reconstruction. A secondary purpose is to systematically track subjective and objective outcomes on patients following ACL reconstruction to help identify differences between those who have subsequent knee problems and those who do not. The study hypotheses are the following: 1) The Sportcord Test will provide a valid and reliable measure of functional performance following ACL reconstruction. 2) Patients who have subsequent knee problems in the 12 month study period will exhibit different scores on clinical special tests compared to those who do not.
A prospective randomized controlled trial will be used to evaluate the efficacy of post-operative perturbation training. 80 patients who were regular participants in activities that involve cutting, pivoting, jumping, and lateral movements prior to injury who range in age from 13-55 at the time of injury are eligible. All eligible subjects must undergo primary anterior cruciate ligament reconstruction. Using a prospective randomized design, 40 subjects who will be block randomized by sex to 40 patients who will receive 10 sessions of post-operative perturbation training in addition to standard agility and return to activity progression and forty who receive only standard agility and return to activity progression. Post-operative perturbation training will be initiated when the athlete is at least 12 weeks post-anterior cruciate ligament reconstruction, has full range of motion and achieves 80% quadriceps strength symmetry, the criteria we currently use for beginning return to activity progression.
This is a prospective, randomized, single-blinded human clinical trial that will examine how injection pressure influences the spread of a given volume of injectate in the adductor canal, during adductor canal nerve block.
The proposed study will establish novel relationships between intra-articular mesenchymal stem cell (MSC) recruitment, synovial inflammation, biomarkers of cartilage degeneration and joint inflammation, clinical patient factors, and downstream alterations in cartilage composition and morphology to provide novel insights into the pathoetiology of post-traumatic osteoarthritis (PTOA) after ACL injury and reconstruction. The study aims to enroll N=38 total patients with primary, isolated rupture to their anterior cruciate ligament (ACL), who have agreed to participate in the study and who will undergo primary surgical reconstruction by an orthopaedic physician at our two sites. Patients will undergo baseline magnetic resonance imaging (MRI), baseline clinical evaluation, and undergo a baseline blood draw. Subsequent imaging and clinical evaluations will be longitudinally performed at several postoperative timepoints up to 12 months postoperatively.
Several attempts have been made to reduce these failure rates and improve return to sports rates in high-risk populations, and one of these approaches has been postoperative bracing. A recent survey of the Anterior cruciate ligament (ACL) Study Group has shown that 53% of surgeons prefers functional bracing following ACL reconstruction. Currently, however, there is no clear consensus on whether functional bracing following ACL reconstruction leads to lower failure rates, improved stability or better patient-reported outcomes when compared to ACL reconstruction without bracing.
By introducing BlazePods as a neurocognitive addition to the YBT, this study aims to determine whether this addition impacts balance performance and/or reach distances between the operative and non-operative limbs of patients recovering from ACL reconstruction. Findings will contribute to optimizing return-to-sport protocols and enhancing late-stage rehabilitation program designs.
This is a randomized control trial to investigate the effectiveness of a multimodal opiate sparing analgesic regimen in controlling post-operative pain and potentially reduce post-operative opioid consumption in patients undergoing Anterior Cruciate Ligament Reconstruction (ACL-R).
The purpose of this study is to explore patient outcomes associated with, the use of a 3D printed knee extender device, in conjunction with an at-home rehabilitation program, for patients who are performing knee rehabilitation after anterior cruciate ligament (ACL) surgery.
The goal of this clinical trial is to examine the effects of 12 weeks of post-operative use of a novel wearable electrical stimulation knee sleeve device (KneeStim) on post-operative biomechanical function (gait). Participants will be United States Military Academy cadets aged 17-27 years. The main questions it aims to answer are: * Examine the effects of KneeStim wear on cadets' post-operative gait * Examine changes in site-specific skeletal muscle mass * Examine the changes in patient-reported outcomes * Assess time to return to full duty * Compare Bioelectrical Impedance Analysis (BIA) measurements to Magnetic Resonance Imaging (MRI) measurements (total thigh volume) * Determine the concurrent criterion validity of the KneeStim device compared to gold- standard metrics (3D Motion Capture) Participants will undergo body composition analysis, MRI, strength testing, standard of care rehabilitation, gait analysis, and complete surveys. Participants will wear the KneeStim during their standard of care rehabilitation visits for the first 5 weeks post-operative, and throughout daily tasks from 6-12 weeks. Researchers will compare a control group (standard of care + KneeStim controlled low intensity) to an experimental group (standard of care + KneeStim flexible intensity) to assess the aims previously mentioned..
The goal of this pilot randomized clinical trial is to look into the efficacy of concentrated bone marrow aspirate (cBMA) in improving post traumatic osteoarthritis (PTOA) symptoms in patients undergoing revision anterior cruciate ligament reconstruction surgery. The main questions it aims to answer are whether clinical outcomes, such as pain, are improved in patients who get cBMA with surgery, if there is a change in circulating markers of inflammation and what part of the cellular and molecular composition of cBMA may explain its effects.
Optimal knee joint loading, which refers to the forces acting on the knee caused by daily activities such as daily steps, plays an essential role in maintaining knee articular cartilage health and reducing the risk of osteoarthritis (OA). After anterior cruciate ligament reconstruction (ACLR), individuals take fewer daily steps as compared to uninjured controls resulting in insufficient knee joint loading to joint tissues, but it is unclear how changes in daily steps impact knee joint cartilage health in OA development. Therefore, the overall single arm, longitudinal pre-test post-test study objective is to determine the mechanistic links between knee joint loading as measured by daily steps and comprehensive magnetic resonance imaging (MRI) measures of knee joint cartilage health post-ACLR. The central hypothesis is that individuals post-ACLR who take low daily steps will demonstrate deconditioned, less resilient cartilage characterized by poor tibiofemoral cartilage composition and greater cartilage strain.
After rehabilitation completion, there remains large deficiencies between the operative (OP) and non-operative (NOP) limbs in lower-limb outcomes (e.g., size, strength, and function) and these deficits can persist for years. Therefore, further specialized training protocols, such as the ones in the present study, are required to determine if these deficits can be lessened. The proposed project will evaluate the effect of 8-weeks of single-leg and double-leg lower-body resistance training on musculoskeletal function in individuals with a previous anterior cruciate ligament (ACL) reconstruction (ACLR) in a randomized control trial. The study will recruit 30-40 males and females between 18-35 years of age that have undergone a previous ACLR. Participants will be randomized to either the single-leg/unilateral (UL) or double-leg/bilateral (BL) training groups. Training will occur three times per week for 8-weeks. The UL group will participate in exercises such as split squats, single-leg deadlifts, or single-leg squats. The BL group will utilize exercises such as double-leg squats, conventional deadlifts, and leg presses. One week prior to (PRE) and one week after (POST) the training program, all participants will undergo a testing battery. Musculoskeletal ultrasound will measure quadriceps and hamstrings muscle cross-sectional area (mCSA), fascicle length (FL), and pennation angle (PA) of both OP and NOP limbs. Strength will be assessed through maximal voluntary isometric contractions (MVIC) for the quadriceps and hamstrings, and one-repetition maximum tests for single-leg leg extensions, leg curls, and leg press. Lower-limb function will be assessed through single-leg and double-leg jumps on a dual force plate system for jump height, impulse, rate of force development, and peak force. Data will be analyzed via separate mixed-factorial analyses of variance for the within-subjects factor of leg (OP vs. NOP) and time (PRE vs. POST) and the between-subjects factor of biological sex (male vs. female) and group (UL vs. BL). Post-hoc analyses will include lower-order ANOVAs and t-tests as pairwise comparisons when significance is detected. Significance will be established at p≤0.05. The results of this study will assist practitioners, coaches, sport scientists, and most importantly, the athletes, in the development of post-rehabilitative strength training protocols designed to reduce between-limb discrepancies.
To evaluate the effect of graded exposure and mindfulness meditation after ACLR, the investigators will determine the effect of graded exposure and mindfulness meditation to 1) decrease self-reported injury-related fear and reinjury anxiety, and 2) improve lower extremity reaction time when compared to a waitlist control group.
The purpose of this study is to determine the effects of real-time gait biofeedback delivered over a 6-week period on early markers of FastOA and conduct 6-week and 6-month follow-up assessments in anterior cruciate ligament reconstructed patients.
While there are a number studies that have reported on the use of blood flow restriction training (BFRT) in the adult population, there is limited information about the use of BFRT in the adolescent population. This study aims to evaluate the use of BFRT in conjunction with traditional anterior ligament reconstruction (ACLR) rehabilitation in adolescents. The purpose of this study is to compare the addition of a BFRT based exercise protocol to a standard ACL rehabilitation protocol in adolescents. Does the addition of BFRT-based exercise improve strength, hypertrophy, and patient reported outcomes after ACLR in the adolescent population?
To evaluate the effect of virtual reality mindfulness meditation on patients after ACLR, the investigators will determine the effect of virtual reality mindfulness meditation to 1) decrease self-reported injury-related fear, 2) improve poor jump-landing movement patterns, and 3) improve brain activity in women 1 to 5 years post-ACLR when compared to a virtual reality sham group.
The purpose of this study is to examine if the changes in corticospinal function that accompany ACL reconstruction can be improved through a form of mental coaching and encouragement, known as operant conditioning.
Anterior cruciate ligament (ACL) injuries of the knee are common in youth soccer players, and show an even higher prevalence in female soccer players. Clinical practice guidelines recommend ACL injury prevention programs (ACL-IPP) to reduce injury risk, yet implementation in amateur youth soccer is low, reducing actual real-world effectiveness. This trial is a pragmatic effectiveness trial for ACL injury prevention for amateur youth soccer players, using a knowledge translation intervention with the Knowledge-to-Action Framework.
The purpose of our study is to examine the effect of platelet-rich-plasma (PRP) injection on the short-term resolution of post-injury inflammation (biomarkers) and improvement in joint function in patients with acute ACL injury. This RCT has been powered based on the questionnaire KOOS Jr. but it is considered a 'pilot study' in terms of the lab analysis proposed.
The purpose of the Bridge Registry is to assess real-world performance of the FDA approved BEAR Implant.
This study will evaluate if a visual biofeedback program leads to improved knee outcomes after anterior cruciate ligament reconstruction. Outcome measures will include biomechanical movement patterns and markers of knee osteoarthritis on magnetic resonance imaging.
This will be a randomized pilot study to determine the effectiveness of Personalized Blood Flow Restriction (PBFR) technique in conjunction with prescribed physical therapy (PT) in a cohort of anterior cruciate ligament (ACL) reconstruction subjects
The purpose of this study is to report the feasibility and determine the initial effects of 18 sessions of real-time gait biofeedback delivered over a 6-week period on retention and transfer of normalized gait biomechanics and improvements in indicators of early post-traumatic osteoarthritis development in those with an anterior cruciate ligament reconstruction (ACLR) at 6 and 8-week posttests.
The aim of this study is to compare the outcomes, ease of use, and cost of the Werewolf FLOW50 device to the institutional standard of care which is does not include the use of electrocautery devices during anterior cruciate ligament reconstruction (ACLR) surgery in patients 12-18 years of age using a randomized control trial design. The investigators hypothesize that a lower proportion of participants who undergo ACLR and are randomized to the Werewolf FLOW50 procedure will experience post-operative arthrofibrosis compared to those randomized to standard of care (control group).
Knee injuries, especially those to the ACL, are common among physically active people. These injuries are frequently treated with surgical reconstruction (ACL reconstruction; ACLR). While ACLR restores stability it does not protect against future injury, long-term pain, disability, and arthritis associated with these injuries. Our study is going to examine new ways to provide feedback about the way people move to determine if these are better at modifying movement patterns that are known risk factors of posttraumatic osteoarthritis development than current standard treatments. If you participate, you will be asked to undergo a movement analysis in a research laboratory while you perform tasks such as walking and hopping. After this initial assessment, you will be randomly allocated to one of 2 treatment groups. Each treatment group will perform 4 weeks (3x/week) of exercises to change the way people walk. Participants will then report for follow-up movement analysis testing 1- and 4-weeks after completing the intervention.
Knee injuries, especially those to the ACL, are common among physically active people. Preventing these injuries from happening is critical to limiting the long-term pain, disability, and arthritis associated with these injuries. Our study is going to examine new ways to provide feedback about the way people move to determine if these are better at modifying movement patterns to prevent injury than current standard treatments. If you participate, you will be asked to undergo a movement analysis in a research laboratory while you perform tasks such as landing from a box and running and cutting. After this initial assessment, you will be randomly allocated to one of 3 treatment groups. Each treatment group will perform 4 weeks (3x/week) of exercises to change the way people land from a jump. Participants will then report for follow-up movement analysis testing 1- and 4-weeks after completing the intervention.
Osteoarthritis (OA) is a leading cause of disability worldwide that affects millions of Americans each year. Posttraumatic OA (PTOA) significantly impacts patients after anterior cruciate ligament (ACL) injury and ACL reconstruction (ACLR) with approximately 50% of patients developing PTOA within 20 years of injury or surgery. Knee joint mechanical loading measured via physical activity (i.e. daily steps) is insufficient in individuals after ACLR compared to uninjured individuals. Establishing the beneficial effects of physical activity to promote optimal free-living knee joint mechanical loading and improve knee joint health will aid in the development of cost-effective interventions that prevent PTOA and health burden of the disease.