View clinical trials related to Osteoarthritis Hand.
Filter by:The aim of this open, prospective, multicenter trial is to evaluate the use of a sterile, devitalized, processed umbilical cord amniotic membrane implant placed in joint interposition in the treatment of STT osteoarthritis.
The aim of this open, prospective, multicenter trial is to evaluate the use of a sterile, devitalized, processed umbilical cord amniotic membrane implant placed in joint interposition in the treatment of PIP joint osteoarthritis.
The goal of this cross-sectional case control study is to investigate the cardiovascular risk in digital osteoarthritis. This study aims to compare the cardiovascular risk between group of patients with digital osteoarthritis and control group of patients with non-osteoarthritis disease paired by measurement of carotid intima-media thickness. All participants will undergo an ultrasound scan to measure carotid intima media thickness, a clinical assessment with the rheumatologist and a cardiovascular risk assessment.
The purpose the research is to evaluate the safety and efficacy of injection of adipose allograft matrix (AAM) to the small joints of the hand for treatment of early stage osteoarthritis. The hypothesis is that use of AAM injected directly into the joint will show improvements in pain and disability while providing a safe, off-the-shelf alternative which can obviate the need for, and risks associated with, current treatment options with autologous fat transfer. As standard of care, routine strength, pain scale scores (VAS) and range of motion will be recorded, a baseline disability survey (DASH score) will also be administered. After these have all been recorded and administered in a separate visit the patient will undergo the lipofilling procedure. The subject population will include patients over the age of 18 who present with joint pain of the hand with radiographic evidence of osteoarthritis.
Rationale: Patients with osteoarthrtis (OA) of the proximal interphalangeal (PIP) joint are commonly treated with joint arthroplasty. The CapFlex PIP implant is a modular surface replacing implant, which has good short-term functional results with a relatively low complication rate. To reduce implant failure and to increase long-term survival, it is important to expand knowledge about fixation and loosening patterns. By using model-based roentgen stereogrammaetric analysis (mRSA), the migration pattern of the implant over time can be calculated. Objective: The primary objective is to assess the fixation and migration patterns of the CapFlex PIP implant system (produced and developed by several companies of KLS Martin Group) in vivo, using mRSA, over 10 years. Secondary objectives are to analyse survival, clinical scores and radiographic aspects of the CapFlex PIP implant system. Study design: A prospective cohort study with 10 years follow-up, in which 36 patients will be enrolled. Patients will be evaluated preoperatively, at 6 weeks, 6 months, 1 year, 2 years 5 years and 10 years. Study population: Patients 18 years or older who require a proximal interphalangeal joint arthroplasty as a result of osteoarthritis of a proximal interphalangeal joint. Main study parameters/endpoints: The main study parameters are the migration of the CapFlex PIP implant system of the distal as well as the proximal component (presented in x-, y- and z-direction). Secondary study parameters are the survival of the CapFlex PIP implant system, clinical scores and radiographic aspects. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: Patients participating in the study will have the same risks when not participating in the study. Patients are asked to spend time to fill in the questionnaires and to have 3 extra visits to the hospital, next to the standard visits. Patients will have more follow up visits and will be followed using RSA analysis, which has as advantage that possible complications might be noticed earlier compared to normal follow up.
Digital osteoarthritis is the second localization of symptomatic osteoarthritis, after the knee. Its cardinal symptoms are particularly intense pain and functional impairment in the case of the erosive form. There is currently no etiological treatment for osteoarthritis. Symptomatic treatments have a modest efficacy, which justifies the search for new treatments. The surgical options are arthrodesis or prosthesis, invasive techniques potentially sources of complications, and finally proposed infrequently given the prevalence of digital osteoarthritis. DECAD is a prospective phase II trial aimed at evaluating the efficacy of surgical joint denervation in painful digital osteoarthritis.
The primary objective of this study is to demonstrate the feasibility of evaluating SAMe tolerability, analgesic benefits, and daily functional improvement in patients with osteoarthritis of the hands compared to placebo. The secondary objective of this study is to generate preliminary data on discomfort, function, quality of life in patients with osteoarthritis of the hands when taking SAMe compared to placebo.
The purpose of the study is to determine the feasibility of a non-contact custom splint fabrication method for patients with chronic diseases suffering from hypersensitive skin or compromised skin integrity. Custom splinting by occupational therapists involves molding low-temperature thermoplastic material directly on patients' skin; however, skin sensitivity is a contraindication for splint fabrication. The study aims to recruit 10 male or female patients with either a diagnosis of scleroderma (SSc) or arthritis. A scan of the patient's hand and a 3D printer will be used to create a precise model of a patient's hand on which a custom splint will be fabricated. By taking this approach, traditional splinting is substituted by avoiding direct contact with the material on the surface of the patient's upper extremity. This technique creates therapeutic opportunities for underserved patients by expanding splinting options for patients with scleroderma and arthritis, and addressing the challenges associated with managing chronic diseases.
The purpose of this open, prospective and multi center trial is to evaluate the use of a treated, devitalized and sterile meniscus implant placed in joint interposition in the treatment of STT osteoarthritis.
Virtual reality creates interactive, multimodal sensory stimuli that have demonstrated considerable success in reducing pain. Much research so far has focused on VR's ability to shift patients' attention away from pain; however, these methods provide only transient relief through means of distraction and therefore do not offer long-term analgesic remediation. An alternative and promising approach is to utilize VR as an embodied simulation technique, where virtual body illusions are employed as tools to improve body perception and produce potentially more enduring analgesia. Disturbances in body perception (i.e., alterations in the way the body is perceived) are increasingly acknowledged as a pertinent feature of chronic pain, and include aberrations in perceived shape, size, or color that differ from objective assessment. The degree of body perception distortion positively correlates with pain, and prior interventions have evinced that treatments aimed at reducing body perception distortions correspondingly ameliorate pain. Several recent experimental research studies have demonstrated the analgesic efficacy of body illusions in a range of pain conditions. Immersive VR multisensory feedback training signifies a promising new avenue for the potential treatment of chronic pain by supporting the design of targeted virtual environments to alter (distorted) body perceptions. Various illusions have been described to alter pain perception; however, they. Have not been directly compared to each other. The multimodal stimulus control of VR enables physical-to-virtual body transfer illusions, resulting in the feeling that the virtual body is one's own. These virtual body illusions can modulate body perception with ease and could therefore be used to alter the perceived properties of pain, consequently utilizing a virtual avatar to specifically shape interactive processing between central and peripheral mechanisms.