View clinical trials related to Osteoarthritis, Knee.
Filter by:Comparative clinical study of Ketorolac tromethamineand Ketoprofen gel in patients with Gonarthrosis and Low back pain.
The objectives of this study were to characterize the local extent and duration of exposure of TA from FX006 and TCA IR, characterize the systemic PK of FX006 and TCA IR, and assess the safety and general tolerability of a single 5 mL IA injection of 32 mg FX006 relative to 40 mg of TCA IR in patients with OA of the knee.
Osteoarthritis is a chronic, multifactorial characterization, which changes in bone alignment, cartilage and structures that provide joint stability appear to be strongly correlated with the origin of this disease.This project will aim to verify the effectiveness of interferential current, short wave and low level laser therapy on an exercise program for mobility and pain in knee osteoarthritis. Blind randomized, placebo controlled. Five groups: exercise group, exercise group + Ultrasound therapy, exercise group + interferential current, exercise group + short-wave diathermy, exercise group + Low level laser therapy. Before and after the trial protocol by the following instruments: Western Ontario and McMaster Universities osteoarthritis index (WOMAC), numerical scale of pain assessment (END), Visual Analogue Scale Fatigue (VAS-F), issue F2.2 Instrument assessment of quality of life of the World Health Organization (WHOQOL-100) test sitting and standing + numerical rating pain scale, algometry. This project hypothesizes that the inclusion of photothermal and electrical agents in an exercise program will provide an improvement in pain, mobility and knee function in individuals diagnosed with knee osteoarthritis.
The focus of this project is to use transcutaneous electrical nerve stimulation (TENS) for the novel indication of treating neuromuscular activation in individuals with knee osteoarthritis (OA) that exhibit neuromuscular activation deficits. The overall goal is to improve outcomes associated traditional therapeutic exercise (TE) by developing an enhanced rehabilitation strategy, which augments TE with TENS (TENS+TE), for the purpose of treating underlying neuromuscular activation deficits. The investigators seek to use TENS to excite neural pathways that immediately increase neuromuscular activation as well as cause sustained improvements in neuromuscular activation and greater strength gains in knee OA patients compared to traditional TE. The investigators will evaluate the effect of TENS+TE on muscle strength, neuromuscular activation, gait biomechanics, physical function, physical activity, self-efficacy of physical activity, self-reported quality of life, disability and pain. The central hypothesis is that an enhanced TENS+TE intervention will lead to better clinical outcomes, increased physical activity, and improved general health. The rationale for conducting a small clinical trial, which demonstrates the feasibility and establishes the preliminary effects of an enhanced rehabilitation strategy, is ultimately to inform the development of a future larger clinical trial to establish the efficacy of an enhanced rehabilitation strategy for knee OA. This hypothesis will be tested through two specific aims: 1) to collect and report data on the feasibility of conducting a clinical trial to evaluate the efficacy of using TENS+TE compared to sham TENS+TE and to TE only for treating patients with knee OA in a clinical setting, and 2) to determine preliminary effects of a 4-week TENS+TE intervention compared to sham TENS+TE, and TE only on muscle strength, neuromuscular activation, gait biomechanics, physical function, physical activity, self-efficacy of physical activity, self reported quality of life, disability, and pain in knee OA patients. Posttests will be at 4 and 8-weeks following baseline.
Using double blind, randomized controlled design to study the immediate, short-term and intermediate-term therapeutic effects of ultrasound guided hyaluronic acid injection and hyaluronic acid combined corticosteroid injection to patients with knee osteoarthritis.
This pilot RCT study is to examine the comparative effectiveness of two decision aids for hip and knee osteoarthritis.
Randomized clinical trial comparing minimal invasive operating technique to conventional operating technique for placement of total knee prosthesis. Clinical evaluations, patient questionnaires, X-rays and CT scans were done to compare these two techniques.
The purpose of this study is to determine if patients undergoing a total knee arthroplasty (TKA) experience a clinically significant reduction in healing time when treated post operatively with a specific form of micro and nano-ampere current. The results of this trial will provide a basis for generalizing its outcomes to apply to other joint replacements and revisions by reducing edema and inflammation and therefore will result in a shorter time to heal. The study will compare electrically treated and non electrically treated patients by using digitally based measurements to determine objective reductions of lower extremity edema including intra and inter cellular shifts in fluid distribution, increased range of motion (ROM) and muscle strength, and improved functional tests of ambulation.
Our overall hypothesis is that a sudden ambulatory load reduction (caused by corrective osteotomy) leads to changes in cartilage biology that delay or reverse osteoarthritic processes determining the clinical outcome and representing an in vivo model for assessing cartilage mechanosensitivity.
Knee osteoarthritis (KOA) is one of the leading causes of lower limb disability among the elderly and can cause loss of knee joint proprioception that contributes towards deterioration of postural balance. Maintaining a good postural stability is essential while performing everyday functional activities and to avoid falls. Exercise training has been reported to reduce pain as well as improve performance of functional tasks in patients with KOA however compliance to exercise can be challenging due to pain, lack of motivation and traditional nature of exercise that can easily overtax patients. Furthermore, there are not exercise programs that are specifically designed for patients with KOA in order to address lost knee joint proprioception. Recent studies have also demonstrated that visual feedback during exercise can enhance the benefits of exercise training. Therefore, the aim of the proposed study is to implement an interactive sensor-based exercise training to improve postural balance, gait and activities of daily living in patients with KOA.