View clinical trials related to Osteoarthritis.
Filter by:This study aims to evaluate the effectiveness of heparin-conjugated gel for treating ankle joint cartilage lesions compared to the conventional microfracture method. It involves 40 participants aged 18 to 65 with localized cartilage defects (Outerbridge II-IV) in the ankle's talus bone. Participants will be divided into two groups: the main group and the control group. The main group will undergo a two-stage process. Initially, adipose tissue will be collected via lipoaspiration from osteoarthritis patients. This tissue will be used to isolate mesenchymal stem cells (MSCs) and extract growth factors, resulting in a biocomposite hydrogel. In the second stage, arthroscopy will be performed to apply the hydrogel for cartilage treatment. The control group will undergo standard microfracture surgery, a known cartilage repair method. The study's main objective is to compare heparin-conjugated gel treatment to microfracture in terms of cartilage repair and patient outcomes. A 12-month follow-up will assess short-term and potential mid-term effects. Data will be analyzed using Microsoft Excel and Statistica 13.0 for descriptive and comprehensive statistical analysis. Quantitative indicators will be assessed using appropriate tests (Mann-Whitney, Wilcoxon T, χ2) to determine significant differences between groups. The study addresses key questions: Does heparin-conjugated gel offer better cartilage repair, functional improvement, and pain reduction than microfracture? Does the hydrogel approach better preserve joint integrity and slow degeneration? Are there complications with either method? This study combines cellular and surgical components to explore innovative cartilage lesion treatments. Comparing with microfracture and using a thorough follow-up, it aims to enhance cartilage repair techniques and patient outcomes.
This clinical trial will investigate whether metallic lateralization in reverse shoulder arthroplasty is as stable as bony lateralization during the first two postsurgical years, measured with CT-based motion analysis (CTMA).
The goal of this clinical trial is to compare two different types of reverse shoulder replacements. Researchers will compare a conventional reverse shoulder replacement with a lateralized reverse shoulder replacement to see if there is a difference in how well the patients function after two years.
Through this cohort study, previous clinical data can be systematically reviewed and supplemented through clinical follow-up. Prospective enrollment and follow-up observation of subsequent patients can also be carried out to build a retrospective-prospective two-way cohort study. The intraoperative, perioperative, clinical follow-up and health economics of surgical robot, computer navigation, personalized osteotomy guide and other digital technologies and traditional TKA were comprehensively and objectively compared, the results and conclusions of the center were summarized and reported, and the effectiveness and safety of digital assistive technology applied to TKA were explored, providing references for clinical diagnosis and follow-up research.
The goal of this cross-sectional study is to evaluate muscle architecture changes and it's effect on muscle strength in female patients with gonarthrosis.Main questions are: - Is there any correlation between muscle strength and muscle thickness, pennation angle fiber length? - Is there any muscle architecture difference in gonarthrosis and is it effecting the muscle strength? The investigators will enroll patients with unilateral gonarthrosis so that investigators can compare the changes within osteoarthritic and healthy knee with the same physical activity levels.
Investigators aim to compare clinical and radiological outcome of use of plate versus screw fixation for calcaneocuboid arthrodesis in adult population.
This study is being conducted to evaluate the efficacy and safety of ASA compared to placebo in the management of osteoarthritis (OA) symptoms of the knee.
The study aims at evaluating the effects of one session of Action Observation Training (AOT) and Motor Imagery (MI) on arthrogenic muscle inhibition (AMI) of the quadriceps (QF) in subjects with end-stage gonarthrosis. 30 patients with end-stage knee osteoarthritis were enrolled. Patients were randomized in two groups (experimental group and control group). Experimental group performed one 6-minutes AOT and MI session with motor content of concentric and isometric QF contractions, whereas control group underwent a 6-minute sham AOT and MI session. Every patient was evaluated to assess the percentage of AMI on the QF before (T0) and after (T1) the treatment following the gold standard Twitch Interpolated Technique.
This study aims to develop, implement, and determines the effectiveness of a personalized medicine approach to each individual's phenotype, based on an innovative physical exercise program to promote the treatment of pain and functional limitation resulting from knee osteoarthritis (KOA) in patients recovering after acute myocardial infarction (AMI) and cardiovascular risk (CVR). This randomized clinical study is important due to the lack of evidence according to the effectiveness of a personalized physical exercise intervention in people after MI or CVR with simultaneous KOA. Some studies have shown the existence of a relationship between OA and cardiovascular diseases (CVD), including coronary artery disease, stroke, congestive heart failure, peripheral arterial disease, cardiac procedures, or death related to CVD, since individuals with OA have a higher prevalence of CVD than individuals without OA. Sedentary behaviour is a risk factor for AMI, CVR and KOA, and, at the same time, physical exercise is a common non-pharmacological treatment for people suffering from these conditions, namely in the control of joint pain, gains in functional capacity, and the improvement of cardiorespiratory functional capacity, whose impact can be felt in level of quality of life. Chronic diseases have a significant impact on the global burden of disease, particularly CVD and OA, with the added presence of obesity also contributing to a high rate of all-cause morbidity and mortality, representing a substantial health burden and with growing implications for individuals, health systems and socioeconomic costs. The presence of OA seems to lead to an increased risk of developing CVD. Several mechanisms have been proposed to explain this relationship. Chronic inflammation associated with OA is one of the hypotheses suggested to explain the increased risk of CVD in these individuals. Furthermore, the pain and disability associated with OA may also limit participation in exercise/physical activity, influencing other risk factors associated with both chronic diseases, such as weight gain. The lack of studies about physical exercise intervention on people that suffered acute myocardial infarction or is in cardiovascular risk with simultaneous knee osteoarthritis and the lack of offer of phase III cardiac rehabilitation in Algarve motivated the development of this study, with the assumption of adopting a healthier lifestyle.
Exercise is very important for living healthier and longer lives. For people with obesity and osteoarthritis, exercise is even more important because it can help them feel less pain in their joints. Also, the more intense the exercise is, the larger the health benefits will be. The most common ways to exercise are running and riding a stationary bicycle. However, these two types of exercise can cause problems for people with obesity and osteoarthritis. Fast running creates large loads in the knees because of the impact of the foot on the ground. On the other hand, studies in cycling show limited improvement in pain because cycling does not allow the feet to move freely, which is important for reducing pain in people with osteoarthritis. This study introduces a new way to exercise using a hip flexion feedback system (HFFS). The subjects will exercise by increasing how much they lift their knees while walking on treadmill. The exercise will also involve controlling the impact of the feet on the treadmill. The HFFS monitors the subject's heart rate during the exercise using a standard heart rate monitor. A TV placed in front of the treadmill shows how high individuals need to lift their knees. How much participants need to lift their knees is calculated by the HFFS based on real-time heart rate readings. Therefore, the HFFS can help people stay at a specific exercise intensity by controlling how high it tells them lift their knees during the exercise. This study will have participants with osteoarthritis and obesity in two groups. One group will exercise using the HFFS. Another group will not exercise. The exercise group will do a 12-week high intensity exercise program. Our first goal is to determine how much fitness, pain, and the ability to move improve due to the exercise program. With this study we are looking to introduce a better and safer way to exercise for people with osteoarthritis and obesity. The results of this study will also allow for further development of home-based exercise and telemedicine.