49 Clinical Trials for Various Conditions
The purpose of the proposed study is to evaluate the efficacy of dronabinol for postoperative pain after arthroscopic surgery of the knee. The investigators hypothesize that dronabinol will relieve pain, reduce opioid consumption and will result in few negative side effects. If this pilot study shows promising results the investigators will expand the trial to include additional arthroscopic surgeries (hip, shoulder) and other types of orthopaedic surgery.
Muscle inhibition prevents optimal contraction of the quadriceps muscle due to changes in the nervous system after knee joint injury. Current treatments for muscle inhibition at this time include knee joint cryotherapy and electric stimulation prior to exercise. These treatments, in addition to strengthening exercises, have shown improvements in the quality and strength of muscle contractions however, they have a short window of effectiveness. Electromyographic Biofeedback is proven to be useful in improving quadriceps strength but the mechanism of action remains somewhat unclear. Therefore, the purpose of this investigation is to compare the effectiveness of electromyographic biofeedback supplemented exercise when compared to traditional exercise on quadriceps muscle function in individuals with a history of knee injury and current evidence of quadriceps inhibition. We hypothesize that 14 days of electromyographic biofeedback supplemented exercise will lead to larger gains in quadriceps activation when compared to traditional exercise. Thirty 18-40 year old participants with a history of knee injury and current evidence of quadriceps muscle inhibition will be enrolled in this single blind randomized controlled trial. Participants will provide written consent prior to all study procedures. Following enrollment, participants will be asked complete questionnaires related to knee related function, current levels of pain, and current activity level followed by completion of baseline measurements. 1. We will use the superimposed burst technique to quadriceps muscle activation. 2. We will measure the Hoffmann reflex response of the quadriceps with surface electromyography. We will measure this signal with surface electromyography electrodes that record the activity of the quadriceps muscle through the skin. Participants in both groups will be instructed on a 14 day home exercise protocol on the day of enrollment. The protocol is comprised of 4 exercises focused on both non-weight bearing and weight bearing quadriceps strengthening. Compliance will be monitored via a daily exercise diary which will be collected at the end of the study protocol. Quadriceps central activation ratio, active motor threshold and Hoffmann reflex will be reported descriptively. Pre-intervention and post 14 day intervention quadriceps central activation ratio and Hoffmann reflex will be compared between traditional exercise and Biofeedback supplemented exercise
Multi-ligament knee injuries (MLKIs) can occur during military training, sports injuries, or traumatic events such as motor vehicle accidents and can be devastating events. These complex injuries involving disruption of 2 or more ligaments often coincide with injuries to arteries, nerves, tendons, menisci, and/or fractures and can be devastating events. MLKIs often require complex treatments nearly 2 in 5 patients suffer complications after surgery. Loss of knee range of motion is the most common complication and is associated with military separation. There are also long-term effects of motion loss, as the need for motion-restoring surgery after MLKI is associated with an increased risk of osteoarthritis within 5 years of surgery. A person's ability to perform both activities of daily living and higher demand physical activities is often impaired both in the short and long term. In fact, only 1 in 3 people return to high-level sport after MLKI. The purpose of this translational randomized clinical trial is to determine if a 30-day course of oral Losartan improves a person's ability to return to work or sport, range of motion and strength, and reduce knee inflammation in the first year after surgical treatment of an MLKI.
The purpose of this study is to investigate effects of timing of surgery (early vs. delayed) and timing of post-operative rehabilitation (early vs. delayed) for the treatment of military personnel and civilians that sustain a multiple ligament knee injury. To achieve this overall objective of this project, we will conduct two parallel randomized clinical trials. For the first study we will randomize individuals to timing of surgery and timing of post-operative rehabilitation. We hypothesize that early surgery, early rehabilitation and the combination of early surgery with early rehabilitation will lead to an earlier and more complete return to pre-injury military duty, work and sports and better patient-reported physical function. In the second study, those whose timing of surgery can not be randomized, will be only randomized to early or delayed rehabilitation. For this study, we hypothesize that early rehabilitation will lead to an earlier and more complete return to pre-injury military duty, work and sports activity and better patient-reported physical function.
This study evaluates the the anatomic factors of the knee that may predispose to ACL injury.
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 purpose of this randomized controlled trial is to assess a new analgesia regimen that includes the addition of genicular never blocks to our current standard regimen of peripheral nerve blocks, which includes an adductor canal block (ACB) and interspace between the popliteal artery and capsule of the posterior knee block (IPACK). The main questions it aims to answer are: 1. Does addition of genicular nerve blocks to standard peripheral block regimen significantly reduce the mean opioid consumption by 33% in the first 24 hours? 2. Does genicular nerve blocks reduce NRS pain scores? 3. Does genicular nerve blocks facilitate earlier discharge? 4. Does genicular nerve blocks last longer than 24 hours? 5. Does genicular nerve blocks improve pain management? Eligible patients are those undergoing an anterior cruciate ligament repair at the Hospital for Special Surgery and participants will be randomized to receive the intervention (genicular nerve block) or the standard of care.
This is a prospective randomized controlled trial with the purpose to determine if patients undergoing isolated posterior cruciate ligament (PCL) reconstruction, or isolated medial collateral ligament (MCL) reconstruction, or combined PCL, anterior cruciate ligament (ACL), fibular collateral ligament (FCL), posterolateral corner (PLC), and MCL reconstructions (or any combination of multiple ligaments) can safely begin partial controlled weightbearing for the first six weeks after surgery.
The purpose of this study is to review the clinical outcomes following hand ligament reconstruction surgery using allograft (cadaveric) knee collateral ligaments. Currently, there is no standard procedure or devices used for hand ligament reconstruction surgery, although most techniques use some form of autograft (patients' own tissue) for the reconstruction. We believe that the use of allograft ligaments in reconstruction may eliminate the pain associated with procuring the patients' own tissue for the procedure, and prove to be a viable and preferred alternative to the multiple techniques currently used. The main procedures of this study include wrist and hand ligament reconstruction surgery (for wrist scapholunate (SL) ligaments, thumb ulnar collateral ligaments (UCL), and finger proximal interphalangeal (PIP) joint collateral ligaments) using allograft ligament, and subsequent follow up appointments where measurements and questionnaires will be completed to evaluate how hand function is doing after surgery.
The proposed research will focus on determining the effect of methylsulfonylmethane (MSM) on knee laxity changes through the menstrual cycle in young active females. As an extension to recent discovery, that MSM reverses the negative effect of estrogen on engineered ligament function, the proposed work is designed to determine whether MSM can decrease the negative effect of estrogen on knee laxity in females. Ligament function is determined by the content and cross-linking of collagen, which is influenced by a milieu of biochemical and mechanical parameters. The greater the amount and cross-linking the greater the stiffness and strength of these connective tissues. In engineered ligaments it has been previously shown that the high levels of estrogen, normally present in the days before and after ovulation, can inhibit the cross-linking enzyme lysyl oxidase. This decrease in collagen cross-linking likely increases connective tissue laxity and contributes to observed 4-fold greater occurrence of anterior cruciate ligament (ACL) rupture in females. Conversely, MSM increases collagen cross-linking and recent work conducted by the Baar lab in engineered human ligaments treated with high estrogen demonstrated that MSM could completely reverse the effects of estrogen on ligament mechanics. The proposed research aims to advance this promising pre-clinical data and apply in a clinical trial. This research also proposes to quantify that knee laxity increases up to 5mm between the first day of menstruation and the day after ovulation and also that the magnitude of the increase in laxity is directly related to the magnitude of the change in estrogen. Importantly, a direct relationship between knee laxity and ACL rupture exists. For every 1.3mm increase in anterior-posterior knee displacement, the odds of ACL rupture increase 4-fold. Therefore, any treatment that decreases knee laxity could be expected to reduce ACL ruptures and have widespread application across the general active population and high-level athletics.
Purpose: There are no existing data available to guide clinicians in the appropriate rehabilitation progression of patients who have undergone knee arthroscopy. The investigator intends to fill this void by establishing normative recovery curves for patients undergoing knee arthroscopy. Research Design: Prospective Observational Design Procedures: Patients 10-70 years old will be screened for "standard of care" clinical and functional outcomes to occur at standardized time-points (post-op weeks 1-4, 8, 12, 16, 20 and return to sport/activity) following arthroscopic knee surgery. Recovery curves will be plotted for all outcome variables of interest including; (1) International knee Disability Committee (IKDC) survey, (2) Tampa Kinesiophobia scale, (3) Tegner activity scale, (4) Marx activity scale, (5) Passive knee range of motion/heel-height difference, (6) Balance Error Scoring System (BESS), (7) Quad/Hamstring strength ratios, (8) Y-Balance, (9) Functional Movement Screening, (10) Vail-Sport Test, (11) Landing Error Scoring System (LESS), (12) Hop Testing, and the (13) Sports Metrics Test. Polynomial lines-of-best-fit and 95% confidence intervals will be plotted to provide objective recovery curves for clinical utilization and stratification of patient recovery. Risks: There are no additional risks to "standard physical therapy practice" for post-surgical patients participating in this study. The investigator will not be using invasive procedures or testing modalities that emit radiation. Benefits \& Clinical Relevance: This information may offer valuable information to clinicians treating patients following knee arthroscopy by providing objective data for each phase of post-operative recovery. Identifying key landmarks and functional milestones may allow the ability to identify patients who are not meeting clinical expectations and subsequently tailor rehabilitation programs to improve recovery trajectories.
Negative outcomes impact individuals with a history of ACL reconstruction (ACLR) despite completion of formal rehabilitation and clearance to return to physical activity (PA). Focused exercises and targeted health education may improve these negative outcomes and increase quality of life. The purpose of this study is determine the effects of an 8-week rehabilitation program on strength, sensorimotor function, functional performance and patient-reported outcomes in patients with a history of ACLR. A secondary aim will be to identify baseline PA levels and dietary intake patterns in these individuals. Participants will complete standard knee radiographs and all baseline measures, and resume normal activities of daily living for one-week while wearing an accelerometer to quantify PA levels and complete two, 24-hour dietary recalls to examine dietary patterns. After one-week, participants will come back to the laboratory and complete the pre-intervention assessments prior to randomization to the exercise or control group. After 8-weeks, participants will complete all outcome assessments 24-48 hours, 1-month and 3-months post exercise completion. The investigators hypothesize the intervention group will have significantly better outcomes post-intervention compared to the control group. In addition, the investigators hypothesize areas of educational and behavioral intervention related to PA engagement and dietary strategies to support weight management will be needed.
The purpose of this study is to examine if thigh muscle weakness and the lack of muscle activation that accompanies ACL injury and reconstruction can be improved with functional resistance training.
Anterior cruciate ligament (ACL) tears are disabling injuries that place a significant burden on the athlete. Roughly 80% of these injuries are linked to a noncontact mechanism, with more than 70% of them occurring while landing from a jump. Female athletes are at higher risk of sustaining a noncontact ACL injury due to the higher number of risk factors that they possess compared to their male counterparts. Due to this statistic, ACL prevention programs have been developed over the past 15 years in attempt to reduce this risk among the female athletic population. These programs have been shown to reduce the rate of noncontact ACL injuries in females by correcting the risk factors associated with them. However, it remains unclear as to whether these positive results are solely due to the program or a higher exercise workload in its participants. The purpose of this study is to evaluate the effectiveness that an ACL prevention program has on modifying at-risk landing mechanics (associated with noncontact ACL injury) compared to a resistance training program of equal workload.
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.
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?
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.
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.
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.
The goal of this randomized clinical trial is to evaluate the effects of vibration on factors related to the risks of post-traumatic knee osteoarthritis and secondary anterior cruciate ligament (ACL) injury in individuals who have undergone anterior cruciate ligament reconstruction surgery (ACLR). The main objectives are to compare the effects of Standard rehabilitation vs. rehabilitation that includes whole body vibration (WBV) or local muscle vibration (LMV) on: * Quadriceps muscle function * Gait biomechanics linked to post-traumatic knee osteoarthritis development * Patient self-report outcomes * MRI indicators of knee joint health and muscle quality * Landing biomechanics linked to secondary ACL injury risk * Evidence-based return-to-physical-activity criteria Participants will be assigned to 1 of 3 groups (standard rehabilitation, standard rehabilitation + WBV, or standard rehabilitation + LMV) and will complete assessments of quadriceps function, gait biomechanics, landing biomechanics, functional ability, patient-report outcomes, and MRI 1, 6, and 12 months after ACLR. Researchers will compare the groups to see if vibration embedded in ACLR rehabilitation improves joint health outcomes.
This is a multicenter randomized, placebo-controlled trial to assess whether a 6-month course of oral montelukast after ACL reconstruction reduces systemic markers of inflammation and biochemical and imaging biomarkers of cartilage degradation. This study will specifically target older ACL reconstruction patients with concomitant meniscal injuries as this group is at greatest risk of rapid PTOA progression. Patients will randomly be assigned to receive oral montelukast (10 mg) versus placebo daily for 6 months after surgery.
This is a study comparing the effects of blood flow restriction (BFR) therapy on the maturation of the Anterior Cruciate Ligament (ACL) graft after reconstruction surgery compared to physical therapy without the use of BFR.
The participant population for this study will be a convenience sample of 40 active duty soldiers and cadets at West Point, New York (NY) who are recovering from anterior cruciate ligament reconstruction (ACLR) and are cleared to return to run by their medical provider. Two groups will be utilized in this pre-test, post-test, single-blind randomized controlled trial study design. The purpose of this study is to determine if patients recovering from ACLR benefit from running gait retraining to adopt a forefoot strike pattern and 5-10% increase in step rate when compared to a traditional walk to run program.
This clinical trial evaluates interventions to maximize muscle function and improve cartilage health following anterior cruciate ligament reconstruction. Improving muscle function may improve patient outcomes, improve joint mechanics, and potentially serve as a prevention approach for post-traumatic knee osteoarthritis. Knee osteoarthritis (OA) is a disabling disease that carries a substantial burden to society and to the individual affected.
Quadriceps muscle weakness is a common consequence following anterior cruciate ligament (ACL) injury and reconstruction. Maximizing quadriceps strength following ACL injury is significant as diminished quadriceps strength has been linked to the osteoarthritis that affects over 50% of surgically reconstructed limbs. Given that knee joint health following ACL injury is predicated on restoring quadriceps strength, identifying treatment approaches capable of improving strength is paramount. Blood flow restriction training (BFRT) is a method where oxygen to the muscle is intentionally reduced during exercise/rehabilitation and may lead to more timely and substantial strength gains. In the proposed project, we will examine the efficacy of BFRT in patients who have undergone ACL reconstruction and suffer from substantial quadriceps weakness.
While surgical anterior cruciate ligament reconstruction (ACLR) of the knee restores passive stability, studies are showing consistently poor long-term outcomes. Unusually high risks of early-onset osteoarthritis and re-injury, and low rate of return to sport following ACLR all seem to be related to a chronic tendency to land stiff-legged from a jump or hop, which itself may be due to fear of re-injury. Decreased knee bending for force absorption simultaneously decreases performance level and increases risk for injury and arthritic changes. The purpose of the proposed study is to compare a current best-practice plyometric training program to one utilizing body weight support to increase repetition and improve performance in the initial phases. The investigators hypothesize that we will see larger improvements in absorptive capacity of the knee and better confidence in activity immediately following body weight support training, as well as improved retention of training effects after a two-month period.