View clinical trials related to Chronic Knee Pain.
Filter by:The goal of this pilot clinical trial is to evaluate whether the ultrasound-guided percutaneous peripheral nerve stimulation through a needle results in greater gains in strength and power compared to the administration of current through surface electrodes in patients undergoing strength and power assessments. The main questions it aims to answer are: Does percutaneous stimulation of the superior and inferior gluteal nerves using ultrasound-guided needles enhance strength and power more effectively than transcutaneous stimulation through electrodes? Is the effectiveness of current delivery significantly different between percutaneous and transcutaneous methods when assessed with a linear encoder in a standarized hip extension exercise? Participants will: Be randomized into two groups: one undergoing ultrasound-guided percutaneous stimulation of the gluteal nerves (experimental group) and the other undergoing transcutaneous stimulation through electrodes (control group). The same stimulation protocol at 10 Hz frequency with the maximum muscle contraction evoked without pain will be performed in both groups. Then, the participants will undergo strength and power assessment before and after therapy administration using a linear encoder in a hip extension exercise. Researchers will compare the experimental group to the control group to see if the method of current delivery (percutaneous vs. transcutaneous) has a significant impact on the gains in strength and power. This comparison is based on the hypothesis that percutaneous delivery of current, guided by ultrasound, is more effective than simply positioning a surface electrode for transcutaneous stimulation. The evaluation of strength and power will be performed through a linear encoder that measures peak strength and concentric power in each repetition, conducted by a blind operator unaware of the patients' group allocations.
The goal of this clinical trial is to study the effects of using an internet-based cognitive behavioural therapy (iCBT) program and exercise in chronic knee patients with psychological distress. The main question[s] it aims to answer are: - What are the effects of a combined iCBT and standardized exercise program on pain and function in chronic knee pain patients with psychological distress - What are the effects of a combined iCBT and standardized exercise program on depression, psychological distress, physical function, quality of life, and quadriceps muscle strength in chronic knee pain patients with psychological distress - Do a combined iCBT and standardized exercise program significantly improve pain and function in chronic knee pain patients with psychological distress compared to a control group? - Do a combined iCBT and standardized exercise program significantly improve depression, psychological distress, physical function, QoL, and quadriceps muscles strength in chronic knee pain patients with psychological distress compared to a control group? Participants will be allocated randomly to either intervention group or control group. Intervention group will be given iCBT, exercise and educational program, while the control group will be given exercise and educational program only. Researchers will compare both groups to see if the intervention group improves much better in terms of pain, function and other outcome measures compared to the study group.
To compare the effects of the following types of therapy on knee range of motion when given to patients with chronic knee pain: - A standard steroid injection - Peripheral nerve stimulation (PNS) therapy in combination with a standard steroid injection - PNS therapy in combination with a placebo injection Steroid injections are given directly into the knee joints and are considered to be the standard therapy for chronic knee pain. In this study, the injection will be made of the steroid drugs triamcinolone and bupivacaine.
Genicular nerve neurolysis (GN) constitutes a relatively novel technique, whereby different chemical compounds (i.e. alcohol, phenol) are injected in close proximity to the genicular nerves of the knee joint, with the intention to exert a neurolytic effect by denaturing proteins resulting in Wallerian degeneration distal to the lesion. Based on the preliminary evidence and considering the potential benefits of the technique, we hypothesized that ultrasound-guided genicular chemical neurolysis with phenol is superior in terms of pain relief at 3 months, when compared to intra-articular steroid (IAS) injection.
Knee osteoarthritis pain is one of the conditions commonly seen in general and specialized medicine. Knee arthroplasty is one of the most successful orthopedic surgeries for the treatment of this disease, significantly improving pain, disability, and the overall quality of life for patients who undergo it. However, there is a subgroup of individuals in whom the pain persists or even worsens. Radiofrequency has been introduced over 10 years ago as a neuroablative technique targeting the genicular nerves, which innervate the sensory terminals of the knee joint, for the treatment of chronic pain in that region before or after arthroplasty. However, the results have not been entirely consistent. Recent anatomical studies have demonstrated the presence of other sensory terminal branches of the femoral nerve, such as the infrapatellar branch of the saphenous nerve, medial vastus nerve, intermediate vastus nerve, and lateral vastus nerve, which could be useful targets for the treatment of post-knee arthroplasty pain. To date, no studies have been conducted to address post-knee arthroplasty pain through the application of thermal radiofrequency on the sensory branches of the knee from the femoral nerve (infrapatellar branch of the saphenous nerve, medial vastus nerve, intermediate vastus nerve, lateral vastus nerve). Therefore, The investigators aim to conduct a randomized double-blind clinical trial where The investigators will apply thermal radiofrequency on the sensory terminal branches of the femoral nerve in the knee, based on recent anatomical studies. The objective of the study is to determine if radiofrequency ablation of sensory nerves in the knee improves pain and disability in patients with post-knee arthroplasty chronic pain at the L'Alt Penedés-Garraf Health Consortium. Method: This is a randomized double-blind clinical trial with two arms. Two groups will be used, where one group will receive thermal radiofrequency of sensory nerves in the knee, and the other group will receive a placebo treatment. The hypothesis The investigators propose is that radiofrequency ablation will alleviate at least 50% of baseline pain and disability in at least 50% of the patients.
Chronic pain is a global public health problem, which intensifies even more in the obese population, reaching about 33% of these patients. Among the topography, chronic knee pain affects 80%, constituting an important cause of disability and decreased quality of life. In addition, in grade 3 obesity, also called morbid obesity, in which bariatric surgery is already indicated, knee pain makes it difficult or prevents participation in the pre-habilitation program that includes physical therapy through therapeutic exercises with the aim of reducing postoperative complications. In this sense, a double-blind, randomized, placebo-controlled clinical trial will be conducted with the objective of evaluating the effect of photobiomodulation (PBM) on pain and functionality of obese patients with chronic knee pain who are in a prehabilitation program for bariatric surgery, discussing its role as an analgesic therapy and modifier of peripheral and central sensitization mechanisms of the pain pathway. PBM is a safe treatment option, with no undesirable effects and low cost. The primary outcomes will be pain intensity, through visual analogue scale, and Knee injury and Osteoarthritis Outcome Score (KOOS) questionnaire, validated version for Portuguese - Brazil. Secondary outcomes will be pressure pain threshold and rolling pinch maneuver measured by digital algometer. Other exploratory outcomes will be 6-minute walk test, knee range of motion, SF-36 quality of life questionnaire. There will be 2 groups: an intervention group (photobiomodulation associated with standard physiotherapy treatment) and another placebo group (device turned off associated with the same standard physiotherapy treatment). The application sites will be knees and lumbar paravertebral 2 times a week for 12 weeks. The dosimetric standards will be 4J/point in the knees and 3J/point in the lumbar. The results obtained will be statistically analyzed and later published in a scientific journal.
The purpose of this study is to assess how clinically useful and safe genicular nerve radiofrequency ablation is in people with chronic pain after total knee arthroplasty performed for osteoarthritis.
Chronic knee pain remains a disabling disease despite current treatment strategies. There is an increase in the prevalence of osteoarthritis (OA) of the knee in the general population, presently affecting approximately 450,000 individuals in Belgium. A total knee replacement is a viable alternative for severe knee OA that does not respond to conservative therapy. Unfortunately, up to 53% of patients who undergo a total knee replacement develop persistent post-surgical pain (PPSP). There is currently no effective therapy for PPSP. A radiofrequency (RF) treatment applies high frequency current on the nerve responsible for pain conduction, resulting in an interruption of the transmission of pain. This can be applied to the nerves innervating the knee joint - the superolateral, superomedial and inferomedial genicular nerves - and could be an alternative, minimally invasive treatment for patients with knee OA who fail conservative treatments and for patients with PPSP. Data from the recent literature indicates that this treatment leads to a reduction of pain intensity and could result in an improvement of knee function, of the psychological state of the individual, and finally in an increase in health-related quality of life. Furthermore, RF of the genicular nerves could help avoid or delay a total knee replacement therefore potentially contributing to cost reduction. Both cooled and conventional RF treatments are reported in the literature to improve pain. The use of water to cool the RF electrodes results in an increased lesion size by removing heat from adjacent tissue, allowing power delivery to be increased. As a consequence, cooled RF could result in a higher chance of success and longer duration of effect. Until now, the studies performed on cooled RF are industry initiated and a direct comparison between conventional, cooled and a sham procedure is lacking. The aim of the COGENIUS trial is to investigate the effect of the two types of RF treatment on individuals experiencing chronic knee pain that is resistant to conservative treatments. For this purpose, the efficacy and cost-effectiveness of cooled and conventional RF will be compared to a sham procedure in patients suffering from knee OA and PPSP after total knee replacement.
This clinical investigation will be carried out as a randomized controlled trial conducted at the Northern Regional Hospital, Hjørring. This investigation will enrol 36 patients suffering from severe knee osteoarthritis pain, primarily from the orthopaedic ward at Hjørring Hospital, where potential participants will be identified during routine consultations. The RELEARN intervention consists of encephalography (EEG) neurofeedback of cerebral movement evoked signatures of pain, where the participants will be instructed in attempting to manipulate these signatures to reduce pain perception. This investigation is carried out to analyse the clinical performance and safety of the RELEARN neurofeedback software.
The investigators want to compare the effects of upper versus lower body moderate aerobic exercise on the experience of pain in individuals with chronic knee pain. Participants will attend the laboratory on 4 separate occasions to complete a series of exercise tests and experimental pain tests.