View clinical trials related to Osteoarthritis.
Filter by:The purpose of this study is to determine which platelet rich plasma (PRP) injection dosage provides the most improvement in a patient's knee pain level at 26 weeks post-injection.
The study is a single-center, retrospective and prospective, non-randomized, non-controlled and consecutive series post-market study. The purpose of this study is to confirm safety, performance and clinical benefits of the NexGen TM Augmentation Patella. The primary objective is the assessment of safety by analyzing implant survivorship. This will be established by recording the incidence and frequency of revisions, complications and adverse events. Relation of the events to implant, instrumentation and/or procedure should be specified. The secondary objective is the assessment of performance and clinical benefits by recording patient-reported clinical outcome measures (PROMs) as well as radiographic outcomes.
The proposed study evaluates the effect of carbon fiber brace design on forces across the ankle. Research suggests that ankle arthritis develops following ankle fracture due, in part, to elevated forces on the cartilage. It is expected that carbon fiber braces can reduce forces in the ankle joint thereby reducing the risk of developing arthritis following injury. In this study, carbon fiber braces will be tested to determine how they influence the forces acting on the ankle cartilage. The proposed study will provide evidence that can be used by clinicians and researchers to design carbon fiber braces to effectively reduce forces on ankle cartilage.
The goal of this study was to perform pulsed radiofrequency ablation with a modified target suggested in the cadaver study by Park et al. (The Knee 27 (2020) 1577-1584) on knee osteoarthritis patients, and to evaluate the effect of reducing the frequency of intravascular injection and reducing pain.
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.
In this study the investigators aim to examine the effects of Transcranial Magnetic Stimulation (TMS) on hippocampal network connectivity and pain levels in individuals with pain due to knee osteoarthritis.
This is a single-site, three-arm, parallel-group randomized clinical trial (RCT). The clinical effects of a nurse-led, very brief, preoperative mindfulness-based intervention for hip and knee replacement patients will be investigated relative to an audio-recorded very brief, preoperative mindfulness-based intervention delivered during the standard nurse consult and a nurse-led preoperative pain psychoeducation intervention during the standard nurse consult.
This is a prospective, multi-center, two-arm, randomized, controlled post-market study to evaluate and compare the clinical accuracy of component placement in robotic-assisted UKA and that of traditional methods.
Disabling symptoms of osteoarthritis are seen in approximatively 10% of people over 55 years old. Many patients suffer from persistent pain symptoms from moderate osteoarthritis despite optimal medical treatment. For these patients, several minimally-invasive surgical treatments have been proposed, including arthroscopic lavage and debridement; however, none of these treatments have been proven effective compared to sham treatment. Recently, catheter-directed embolotherapy of the geniculate arteries has been propagated as a real alternative to medical management in patients with mild to moderate knee osteoarthritis unresponsive to conservative medical management.
A unicompartmental (partial) knee replacement (UKR) is the removal of one part of the knee joint (a condyle), that has become damaged due to osteoarthritis, and replacing it with an artificial implant. The placement of these artificial implants and how they are aligned with each other is important because they can impact overall knee function and the long-term survival of the implant. A UKR is a highly effective, recognised procedure for patients with end-stage osteoarthritis affecting one compartment of the knee joint. The functional outcomes following UKA are at a minimum of equivalence to total knee arthroplasty procedures, with some recent literature demonstrating improved functional patient reported outcome scores. There have been significant developments in knee replacement surgery over recent years. In particular, the introduction of robotic surgical systems, such as the NAVIO and CORI systems (Smith+Nephew Plc). These systems are hand-held devices which can support the surgeon with the knee replacement procedure, the systems are image-free and do not require the patient to undergo any scans (such as CT scans). Comparisons of robotic systems to conventional instruments have demonstrated that robotic platforms produce fewer positioning errors in total knee replacement. This can result in more precise knee alignment and better outcomes following surgery. With both the NAVIO and CORI Surgical Systems there is a reduction in radiation exposure due to them being image-free. At present, there is some evidence available for the long-term outcomes of knee replacement implanted using robotic assistance (i.e. 2-10 years) however this study is designed to look at the early outcomes following UKR. There is no literature to date to show that robotic-assisted UKR is superior to conventional methods, within the early post-operative period (up to 12 months). This study is designed to show that the NAVIO/CORI surgical systems are better than conventional methods for UKR. The hypothesis is that they will be cost-effective, will reduce the time a patient spends in hospital following their surgery, will improve patient satisfaction during the early recovery period and will improve the patient's early post-operative mobility and function.