View clinical trials related to Knee Injuries.
Filter by:This study will evaluate the effectiveness of an mHealth sedentary reduction program over a 6-month period of time in adults with past or present knee symptoms, injuries, or surgeries.
The purpose of this study will be to evaluate and compare patients undergoing total knee arthroplasty (TKA) with sensor guidance versus that of a standard technique. Each patient will be assessed for the difference between passive, soft tissue controlled, pressure balance and muscle activated pressure balance.
Femoral nerve blocks are commonly used to provide pain control for total knee replacement, anterior cruciate ligament (ACL) reconstruction. Commonly employed local anesthetic concentrations result in motor block of the quadriceps and constitute an inherent risk factor for patient fall. The aim of this study is to determine the minimum effective concentration of bupivacaine in 90 % of patients (MEC90) required for a motor-sparing, successful sensory block of the femoral nerve.
This randomized, controlled clinical trial will compare the outcomes of single portal versus two portal techniques in patients who have meniscus or articular cartilage pathology. The study hypothesis is that patients who undergo single portal arthroscopy will have less pain post-operatively, use less pain medication, and have a higher International Knee Documentation Committee (IKDC) score at six months and one year compared to patients who undergo traditional two portal knee arthroscopy.
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
This is a Phase 2, double-blind, multicenter, randomized, placebo-controlled trial to evaluate the efficacy and safety of Sprifermin (AS902330) (recombinant human fibroblast growth factor-18 [rhFGF-18]) as an adjunct treatment to subjects following microfracture (MFx) surgery for cartilage injury of the knee. Primary Objectives - To evaluate the effect of Sprifermin (AS902330) intra-articular knee injections as adjunct to microfracture (MFx) surgery on the composition of the refilled cartilage in the target knee, as measured by gadolinium-enhanced magnetic resonance imaging (MRI) of cartilage (dGEMRIC) time constant 1 (T1) relaxation time at 6 months after MFx surgery - To evaluate the safety profile of Sprifermin (AS902330) when administered intra-articular into the knee as adjunct to MFx surgery in subjects with cartilage injury of the knee Secondary Objectives - To further support the efficacy and safety of Sprifermin (AS902330) as an adjunct to MFx for cartilage injury repair through symptomatic outcomes and quantitative MRI measurement
Using magnetic resonance imaging (MRI), laboratory analyses and patient reported outcomes, the overall aim of this study is to investigate structural injuries and biochemical alterations in the acutely injured knee and to relate these findings to clinical outcomes at various time points.
The objective of this study is to determine how effective a plug made out of human bone (called "CR-Plug") will be in the treatment of smaller, focal defects (like the injury the patient has to their knee).
Determine the ability of the allograft plug for the treatment of a cartilage injury in the knee
This study is designed to evaluate the efficacy and safety of Myospare, a non-invasive device, which is connected to the body via electrodes placed in the injured leg. The electrodes which are placed in the middle or upper thigh will stimulate the quadriceps muscle. Myospare will be installed 1 day after the anterior cruciate ligament (ACL) reconstruction surgery and will be removed after 6 weeks of treatment. The patients will be assigned to two groups: 1. Physiotherapy plus Myospare 2. Only physiotherapy The hypothesis of the study is that electrical stimulation combined with voluntary exercise is more effective than voluntary exercise alone.