View clinical trials related to Knee Pain Chronic.
Filter by:Effect of iPACK block on NLR and PLR following knee arthroplasty
Effect of iPACK block with Adductor Canal Block and ESPB on pain management, and NLR and PLR following knee arthroplasty
Gonarthrosis (osteoarthritis of the knee (OA) is a chronic-degenerative disease, characterized by progressive joint damage up to disability that affects about 40% of people over 65 years of age. Its typical pathological changes, articular cartilage degradation, synovial inflammation and subchondral bone thickening, are responsible for the pain and disability of patients. It is now known that "biophysical stimulation" techniques represent a non-invasive therapy used in orthopedic practice to enhance the reparative and anabolic activities of the tissues through an anti-inflammatory and chondro-protective effect.The aim of the study will be to evaluate the anti-inflammatory effects and the relative mechanisms of action of the therapeutic interventions of the QMR technology (Molecular Quantum Resonance) in the treatment of gonarthrosis through the use of in vivo and in vitro models. This technology, supplied by Telea Electronic Engineering s.r.l., exploits non-ionizing high-frequency waves in the range between 4 and 64 MHz at low intensity delivered through alternating electric fields. For the in vivo study, a double-blind randomized controlled clinical trial will be conducted. Both male and female subjects, aged between 40 and 80 years, with knee pain both in the acute and chronic phase of gonarthosis, diagnosed on standard radiography, will be enrolled. Patients will be randomized into 2 groups treated with an intensive or extensive protocol, and a third untreated control group. They will be evaluated at T0 (before treatment), at T1 (end of QMR treatment), and at T2 (one month after the end of treatment (follow-up)). All patients will be assessed for pain and functionality, furthermore synovial fluid and blood sampling will be performed, for the quantitative assessment of the inflammatory state considering the levels of the main pro-inflammatory cytokines and the pro/anti-inflammatory macrophage phenotype. In parallel, in order to delineate the molecular and cellular mechanism of action of QMR stimulation in vitro, a monocyte cell model (THP-1 cell line) will be used to evaluate the response of QMR treatment after treatment with known pro-inflammatory stimuli .
In our study, investigators plan to compare the preoperative RF and genicular nerve ablation approach in patients who underwent TKA(Total Knee Arthroplasty) using the Fast-Track protocol in terms of meeting postoperative pain, function and early discharge criteria.
Effect of Erector Spinae Plane Block and iPACK block with Adductor Canal Block on pain management, and NLR and PLR following knee arthroplasty
Patellofemoral pain syndrome is due to dysfunctional dynamic knee valgus resulting from decrease in strength of hip abductors or abnormal rear-foot eversion with pes pronatus valgus. It is also associated with vastus medialis/vastus lateralis disbalance, hamstring tightness or iliotibial tract tightness.
The purpose of this RCT is to investigate whether high tibial osteotomy using 3D printed patient specific guides aiming at 55% correction is non-inferior to aiming at 62%.
Background: There is a high prevalence of chronic pain in the US, with nearly half of adults experiencing chronic pain. Chronic pain is associated with impaired mobility, specifically ambulation. Treatment for chronic knee pain is complex given that pain is not only due to peripheral sources, but also due to alterations of the central nervous system (CNS). Majority of physical therapy (PT) interventions involve a bottom-up approach targeting the peripheral pain sources and many patients (~66%) do not respond to this treatment approach. Noninvasive brain stimulation techniques such as transcranial direct current stimulation (tDCS) is a novel and promising option for a top-down intervention that can have neuromodulatory effects on the CNS and may better target central factors associated with chronic pain. Purpose: To determine if tDCS delivered to the primary motor cortex in conjunction with individualized PT will result in greater improvements in pain and function compared to sham tDCS with individualized PT in individuals with chronic knee pain. Methods: This study will be performed at outpatient PT clinics at the University of Illinois Hospital. Eligible participants will include patients with chronic knee pain (duration > 3 months) who have not undergone surgery to this area and are scheduled to receive formal PT intervention. Subjects will be randomized to the active tDCS + PT group or sham tDCS + PT group and will receive the intervention for 8 sessions. Outcomes include pain ratings, pressure pain thresholds, patient specific functional scale, lower extremity functional scale, quadriceps strength, knee range of motion, 2-minute walk test, 5 time sit to stand, patient health questionnaire-2, and Central Sensitization Inventory. Impact: The use of adjuvant therapies such as tDCS have the potential to optimize rehabilitation treatment for individuals with chronic pain by offering a more comprehensive treatment that targets peripheral and central sources of pain.
Phase II Multicentre, pilot, parallel-group, blinded, 1:1 randomized controlled trial to determine the feasibility of conducting a larger definitive trail of using vitamin C to reduce persistent pain in patients undergoing total knee arthroplasty surgery.
The objective of the study is to explore the effects of arm exercise (UE, arm ergometer) vs. leg exercise (LE, cycling ergometer) on exercise-induced hypoalgesia (EIH), central pain mechanisms and knee pain in people with knee osteoarthritis (OA). Furthermore, we will explore relations of socioeconomic status, racial discrimination, acculturative stress, and autonomic function to exercise effects on EIH, central pain mechanisms, and knee pain. This will be a pilot randomized cross-over study where all participants undergo Day 1 (baseline assessments), Day 2 (UE or LE), and Day 3 (UE or LE).