View clinical trials related to Fatigue.
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This study explores whether it is feasible to use a newly developed activity pacing framework to standardise how activity pacing is instructed by healthcare professionals in rehabilitation programmes for patients with chronic pain/fatigue.
Multiple Sclerosis (MS) is inflammatory, demyelinating and autoimmune disease of the central nervous system. It is usually seen with relapses and genetic and environmental factors play a role in the etiology. Neurological symptoms seen in MS restrict the patient's daily activity and social role participation. Mobility problems and fatigue are the most important reasons of role limitations and decreased quality of life. The importance of exercise training in disease management has been emphasized in recent years. However, few studies have investigated the effects of task-oriented trainings on symptoms of the disease. The aim of this sudy is to investigate the effects of task-oriented training additional to combined exercise training on functional capacity, mobility, balance, fatigue and quality of life in patients with MS.
This study is to disclose the mechanism of characteristic Tao yin exercises regulate Chronic Fatigue Syndromes based on Brain-Gut Axis.Explore the clinical manifestation of Chronic Fatigue Syndromes, changes of neurotransmitter and central brain function. Then provide some new methods of treating Chronic Fatigue Syndromes.
This study investigates the effect that performing a cardiovascular maximum effort test (the Bruce treadmill protocol) has on performance of the Forward-Step-Down Test (FSDT). The FSDT is performed prior to the fatigue protocol as a baseline measurement, then at 1, 5, and 10 minutes after the fatigue protocol. Participants much reach a certain heart rate (within 10 bpm) of their age predicted maximum heart rate to ensure that the fatigue protocol reaches a maximum fatiguing effort.
The main aim of the project is to evaluate a novel upper body exoskeleton during simulated industrial work. In a first stage of the project, an extensive study involving the end-user companies will be carried out to clearly identify the operator target tasks and typical target task loads for which the exoskeleton will be designed. Based on standard ergonomic evaluation scales (RULA and NIOSH, the Need for Recovery Scale and the Ovako Working Posture Analysing System), high risk tasks will be identified in the field, based on the evaluated information about the workspace configuration, the performed operations and their physical constraints. These will include, but will not be limited to, non-ergonomic postures, for example performing operations above the head or reaching in front, to the side, or behind the body; flexing the arms for extended periods of time; and bending or twisting the torso to lift an object from low or distant locations. Important items to assess in this task are the frequency and duration of tasks and activities, lifting characteristics, perceived physical effort and work-induced fatigue.
This research is being done to determine whether transcranial direct current stimulation (tDCS) can improve fatigue and certain thinking skills in women with breast cancer receiving chemotherapy. Transcranial Direct Current Stimulation is a form of brain stimulation during which low amounts of electrical current are delivered to the brain using electrodes attached to the scalp. The idea of using electrical stimulation to affect neurological symptoms has been around for more than 100 years with the first reported use in 1801. Since the 1960s, tDCS has been used in research for a variety of reasons including stroke rehabilitation, memory enhancement and for depression. People aged 18 or older who are currently receiving chemotherapy with docetaxel and who are experiencing fatigue may join.
This study evaluates the effects of an inhaled blend of essential oils on fatigue scores among women who have hypothyroidism. Half of the participants will receive an essential oil blend to inhale daily for two weeks while the other half will serve as controls and inhale a carrier oil.
800-nm laser light has been shown to delay muscle fatigue when applied before exercise. The effect of illumination during the aerobic phase of strenuous exercise has not been studied. The investigators hypothesize that the increased energy donated to cells during the aerobic phase will significantly delay muscle fatigue. A novel aspect of this study is to include simultaneous treatment with near infrared light at 800 nm and 905 nm. Fatigue index and change in lactate blood level will be used to compare the different laser treatments for each participant. Monte Carlo simulations of light energy reaching the muscle will be carried out, based on skin-fold thickness measurements of each participant. The investigators believe this will be the first report of optical dosimetry as a function of adipose thickness and it will enable estimation how much of the light applied to the skin surface is able to penetrate to the muscles that are thought to be affected. The results of this study will help clinicians to optimize treatment for individual patients.
Orofacial pain encompasses painful conditions, such as temporomandibular disorder. Multidisciplinary health teams seek to control such musculoskeletal disorders to improve the quality and functional capacity of the muscles of mastication. The aim of the proposed study is to evaluate the effect of low-level laser therapy as a form of treatment for the prevention of initial fatigue of the muscles of mastication (masseter and anterior temporal muscles) as well as the recovery of these muscles after induced exhaustion (caused by isometric contraction) in young adults. The participants will be 78 (n obtained from calculation of the sample size with p < 0.05) healthy male and female volunteers between 18 and 34 years of age. The volunteers will be randomly allocated to a laser group (n = 26), sham group (n = 26) and control group (n = 26). All participants will be submitted to a clinical evaluation to record mandibular movements, bite force, muscle sensitivity to palpation and initial muscle fatigue. Initial fatigue will be induced by isometric contraction of the jaws. Maximum voluntary contraction will be performed to record the time until initial exhaustion of the masseter muscle (determined by electromyography). The groups will then be submitted to the interventions: 1) active laser therapy (wavelength: 780 nm; fluence: 134 J/cm2; power: 50 mW; irradiance: 1.675 W/cm2; exposure time: 80 seconds per point) on three points of the masseter and one point on the anterior temporal muscles on each side, 2) sham laser (placebo effect) or 3) no intervention (control). Maximum voluntary contraction will be performed again after the interventions to record the time until initial exhaustion of the masseter muscle (determined by electromyography). Differences in individual time until exhaustion between the pre-intervention and post-intervention evaluations will be measured to determine the effect of low-level laser therapy.