View clinical trials related to Hand Rheumatism.
Filter by:The study aims to investigate the effects of an exercise program applied to patients with scleroderma on functional outcomes (hand and mouth functional results and quality of life).
Affects such as pain, swelling, tenderness, deformities, limitations, strength and function losses, skill and coordination deficiencies in the hand joints, which are frequently seen in rheumatism patients with hand involvement, are included in body structure and function disorders within the framework of International Classification of Function System. Leap Motion Controller is used in hand rehabilitation because it is small in size, low-cost, portable, non-contact, easy to use and provides visual and auditory feedback. The aim of our study is to examine the effect of technology-based rehabilitation on joint range of motion, grip strength, functionality and disease activity in adult individuals with rheumatic disease with hand involvement; and also to compare these effects with the effects of the hand rehabilitation program implemented under the guidance of a physiotherapist and the control group that continues its routine life.
This study is a randomized controlled study examining the effects of 8-week hand home exercises on grip strength, functionality, disease activity and quality of life in patients with PsA. Individuals participating in the study will be randomly divided into 2 groups. Individuals in the intervention group will perform home exercises consisting of stretching, mobility and strengthening, 4 days a week for 8 weeks, and the patients' compliance with the exercise will be monitored by phone call once a week. Individuals in the control group are on the waiting list and the same home exercise program will be taught to the patients at the end of the study.
Brief Summary: Participants with rheumatoid arthritis with recommendation to physiotherapy. Created 2 study groups: 1. Kinesiotherapy with static magnetic field 2. Kinesiotherapy with low-frequency pulsed magnetic field Pulsed magnetic field give better effects then static magnetic field.
Leap Motion Based Gamefication Exercises in the Individuals With Systemic Sclerosis
Telerehabilitation Approach on Individuals with Hand-Affected Scleroderma
The effects of exercises performed by telerehabilitation on individuals with hand-affected scleroderma on range of motion, grip strength, function, sensation, daily life activities and general health will be compared with the effects of traditional physiotherapy practices.
Systemic sclerosis (SSc) is a heterogeneous autoimmune disease characterized by fibrosis of the skin and internal organs. Hand involvement is one of the most observed musculoskeletal involvements in patients with SSc, which can impact on general health, quality of life, and psychological status. Hand exercise programs can help patients to improve not only hand function but also general health status; nevertheless, further randomized control trials (RCTs) are needed to clarify its effect. Hence, the investigators aimed to investigate the effectiveness of home-based, self-administered exercise program for hands in patients with SSc and demonstrate the improvements in general health status.
Participants with rheumatoid arthritis with recommendation to physiotherapy. Created 3 study groups: 1. Only kinesiotherapy 2. Kinesiotherapy with unipolar magnetic field 3. Kinesiotherapy with bipolar magnetic field Kinesiotherapy with magnetic field give better effects than only kinesiotherapy.
The purpose of this study is to investigate how RA affect the brain structures in RA-patients and if anti-inflammatory treatment that target TNF-α or JAK OR physical training of hands has positive impact on neuropsychiatric symptoms and morphological changes in the brain caused by the disease. The goal of this research project is to improve the knowledge of morphological changes in brain developed in connection to RA and to identify clinical and serological markers to predict development of those changes and finally, to investigate if anti-rheumatic interventions counteract destructive processes in the central nervous system (CNS) and improve the patient's health with respect to functionality, pain experience and psychological well-being.