View clinical trials related to Paresis.
Filter by:Rehabilitation of paretic stroke patients, aimed to improve function of the impaired upper limb, uses a wide range of intervention programs. A new rehabilitative approach, called Action Observation Therapy (AOT), based on the discovery of mirror neurons, has been used to improve motor functions of adult stroke patients and children with cerebral palsy. Recently, Virtual Reality (VR) provided the potential to increase the frequency and the effectiveness of rehabilitation treatment and offered challenging and motivating tasks. The purpose of the present project is to design a randomized, controlled, six-month follow-up trial (RCT) for evaluating whether action observation (AO) added to standard VR (AO+VR) is effective in improving upper limb function in patients with stroke, compared with a control treatment consisting in observation of naturalistic scenes (CO) devoid of action content, followed by VR training (CO+VR). The AO+VR treatment may represent an extension of the current rehabilitative interventions available for recovery after stroke and the outcome of the project could allow to include this treatment within the standard sensorimotor training or in individualized tele-rehabilitation.
The purpose of this study is to investigate the efficacy, acceptability, and safety of the therapeutic system E-BRAiN for the treatment of stroke-related impairments.
The purpose of this study is to evaluate the effectiveness of Fesia Grasp, a Functional Electrical Stimulation device for the rehabilitation of upper limb in post-stroke patients. Fesia Grasp rehabilitation will be compared with usual care rehabilitation of upper limb. - Experimental group: patients will receive Fesia Grasp therapy (intensive, repetitive and functional exercises assisted by functional electrical stimulation) - Control group - patients will receive standard care.
Hemiparesis affects the majority of stroke patients in the acute phase. In post-stroke motor rehabilitation patients can re-learn motor sequences through repetitive training. Research showed that virtual reality (VR) can be effectively used in upper limb motor rehabilitation by training motor coordination and gestures in an immersive virtual environment. Another promising line of intervention in post-stroke rehabilitation is the use of music, with evidence supporting the notion that a rhythmic accompaniment promotes the recovery of motor coordination in patients with hemiparetic stroke. Furthermore, studies showed a beneficial effect of the observation of movements performed by a third person in patients with post-stroke hemiparesis. Based this evidence, the present study aims at testing the feasibility and efficacy of a novel music-based VR intervention designed for upper limb motor rehabilitation in post-stroke hemiparetic patients. The treatment consists in upper limb repetitive training activities through the imitation of movements synchronized with a musical accompaniment and is delivered in 10 sessions over 2 weeks, supervised by a physical therapist. Participants wear a VR headset through which they observe egocentric 180° 3D videoclips. The experimental condition (group A) will be compared with a no-music condition (group B), to test the specific effect of music, and with traditional physiotherapy rehabilitation (group C), to test the efficacy of the approach. The investigators expect that the patients undergoing the experimental intervention (group A and group B) will show a greater upper limb motor function improvement, as compared to the active control group. As a secondary endpoint the investigators expect the music component to induce a greater motor improvement as compared to the experimental condition without music.
The age-related loss of muscle mass and function, sarcopenia, has several deleterious effects, such as a reduction in the quality of life and an increase in the incidence of falls, often leading to hospitalisation. The prevalence of sarcopenia is unclear but is estimated to be between 4.6 and 7.9% and the loss of skeletal muscle mass and function is accelerated in people with type 2 diabetes. With the percentage of older people and the percentage of people with type 2 diabetes predicted to rise in coming years it is crucial to develop therapies to increase muscle mass and function. Alterations in nutrition have also been suggested to be of therapeutic use in sarcopenia. Epidemiological data showed that the consumption of fatty fish is positively associated with muscle function in older population, indicating a potential role for long-chain n-3 polyunsaturated fatty acids (LCn-3 PUFA) in increasing muscle mass and function in older people. The aim of the current study, therefore, is to determine the effects of krill oil supplementation on muscle size and function in adults with muscle weakness and type 2 diabetes.
The primary objective of this study is to tailor and test implementation strategies to support the adoption of two upper extremity motor outcome measures for stroke: the Fugl-Meyer Assessment and the Action Research Arm Test. The study's interdisciplinary team will address this objective through the following specific aims: (a) Tailor a package of implementation strategies (referred to as I-STROM-Implementation STRategies for Outcome Measurement) to promote outcome measure use across the care continuum, (b) Determine the effectiveness of I-STROM on outcome measure adoption and (c) Evaluate the appropriateness, acceptability, and feasibility of I-STROM in rehabilitation settings across the country. The mixed-methods study design is informed by implementation science methodologies, and the tailoring of I-STROM will be guided by input from stakeholders, including occupational therapy practitioners and administrators. The investigators will collect robust quantitative and qualitative data by means of retrospective chart reviews, electronic surveys, and stakeholder focus groups. This study, "Strategies to Promote the Implementation of Outcome Measures in Stroke Rehabilitation," will address core barriers to outcome measure use through a package of implementation strategies, thus laying the groundwork for I-STROM scale-up in health systems nationwide.
The focus of this study is to optimize the delivery of a combined strength and aerobic training regimen to individuals with post stroke hemiparesis and reduce overuse and inefficiencies associated with the nonparetic leg during walking. This study proposes to use 1) split-belt treadmill and 2) single belt treadmill walking using split belt simulation software for enhancing symmetrical walking patterns for people with stroke.
The purpose of this pilot study is to determine whether two weeks of multi-channel FES along with task-specific training will improve UE function when compared to traditional rehabilitation or usual care. The secondary purpose of this study is to find whether two weeks of multi-channel FES along with task-specific training will improve shoulder range of motion, grip strength, and patient reported function when compared to traditional rehabilitation or usual care in patients with unilateral stroke resulting in hemiplegia.The following null hypotheses are established for this study: 1. There will be no difference in UE function when using multi-channel FES along with task-specific training compared to traditional rehabilitation or usual care in patients with first time stroke and hemiplegia during in patient stroke rehabilitation. 2. There will be no difference in shoulder range of motion and grip strength when using multi-channel FES along with task-specific training compared to traditional rehabilitation or usual care in patients with first time stroke and hemiplegia during in patient stroke rehabilitation. 3. There will be no difference in self-reported upper extremity function when using multi-channel FES along with task-specific training compared to traditional rehabilitation or usual care in patients with first time stroke and hemiplegia during in patient stroke rehabilitation.The research design for this experimental study will be a randomized controlled trial. The manipulated independent variable in this study will be 1) FES using Xcite with traditional therapy and 2) traditional therapy. The dependent variables in this study are the following: Upper extremity function measured by The Action Research Arm Test, The Box and Block Test, and The Nine-Hole Peg Test; Grip strength measured using a dynamometer; Range of motion at the shoulder measured using a standard goniometer; and Participants' perception of improvement in function measured by a modified Patient-Specific Functional Scale.
This research project will investigate motor imagery training in stroke rehabilitation during which patients receive feedback in real time from their brain activity measured with ElectroEncephaloGraphy (EEG). The investigators hypothesize that the feedback training allows to internally stimulate brain motor networks in order to promote functional recovery of the hand.
The purpose of this study is to investigate if a person with weakness or paralysis in one or both arms, can use the NuroSleeve combined powered arm brace (orthosis) and muscle stimulation system to help restore movement in one arm sufficient to perform daily activities. This study could lead to the development of a product that could allow people with arm weakness or arm paralysis to use the NuroSleeve and similar devices to improve arm health and independent function.