Active clinical trials for "Stroke"

Rehabilitation options for stroke survivors who present severe hemiparesis in chronic stages are limited and may end in compensation techniques that involve the use of the less affected arm to achieve some degree of functional independence. Transcranial direct current stimulation (tDCS) is a non-invasive technique that has been used after stroke to promote excitability of the surviving neural architecture in order to support functional recovery. Interestingly, cortical excitability has been reported to increase when tDCS is combined with virtual reality. This synergetic effect could explain the promising results achieved by preliminary experimental interventions that combined both approaches on upper limb rehabilitation after stroke. The objective of this study is to explore the use of these interventions in subjects with severe hemiparesis and to determine its efficacy in comparison to conventional physical therapy

The aim of this study is to investigate the effect of dual site-dual channel non-invasive brain stimulation for recovery of motor function in post stroke patients. Simultaneous dual site-dual channel stimulation was applied by using two sets of transcranial direct current stimulation devices. All subjects will go through three conditions of transcranial direct current stimulation with for 30 minutes. Three conditions are 1) Dual stimulation 1: i) anodal stimulation on ipsilesional primary motor cortex and cathodal stimulation on contralesional primary motor cortex, ii) anodal stimulation on ipsilesional premotor cortex and cathodal stimulation on contralesional supraorbital area. 2) Dual stimulation 2: i) anodal stimulation on ipsilesional primary motor cortex and cathodal stimulation on contralesional primary motor cortex, ii) anodal stimulation on ipsilesional anterior intraparietal sulcus and cathodal stimulation on contralesional supraorbital area. 3) Single stimulation: anodal stimulation on ipsilesional primary motor cortex and cathodal stimulation on contralesional primary motor cortex.

Stroke is one of the leading causes of serious long-term impairment. According to the estimates, 12,500 people suffer a new or recurrent ischemic stroke in Chile annually, which shows the magnitude of the problem. Motor impairment of the upper limb (UL) stands out as the principal sequel after a CVA (50% of the patients experience it), and the Constraint-Induced Movement Therapy (CIMT) is the rehabilitation approach that shows more scientific evidence today. Even though patients reach certain recuperation levels through this approach, results are still insufficient since 50-80% of the patients continue having upper limb motor impairment after completing standard rehabilitation. Because of this, it is pertinent to conduct research to explore new rehabilitation strategies to reduce the impairment indexes and to provide information for decision making based on evidence. Recent studies on functional neuroimaging propose that there is an abnormal balance in the motor cortex excitability after stroke - relative under-excitability in the affected hemisphere and over-excitability in the unaffected hemisphere (with the consequent inhibitory influence on ipsilesional regions) in stroke patient with moderate motor impairment. This imbalance in the hemispheres function would limit the possibilities of a greater recovery. Then, in order to reestablish brain balance, the investigators proposed that the early introduction of noninvasive techniques of brain stimulation, such as tDCS, to the motor rehabilitation training could promote improvement of upper limb function in patients with stroke. However, we lack studies that confirm the benefits of using these techniques, define the most appropriate protocols, and determine what patients and under which evolving stages would be the best candidates for treatment. This study aims to "compare the effectiveness of seven days of bi-hemispheric tDCS, both active and sham, combined with modified CIMT (mCIMT) in the motor and functional recovery of the hemiparetic upper limb in hospitalized patients with subacute unihemispheric stroke at Hospital Clínico de la Universidad de Chile and Hospital San José". This comparison responds to the hypothesis that patients who receive bi-hemispheric and active tDCS combined with mCIMT (experimental group) get at least 30% more recovery of the paretic upper limb compared to the control group who receive sham bi-hemispheric tDCS plus mCIMT after a protocol of seven days treatment.

The aim of our study is to investigate the effects of hippotherapy simulator exercises in addition to the conventional rehabilitation program on the balance, postural control, mobility, functional capacity, and independence levels of stroke patients.

To evaluate the efficacy and safety of sofadil injection in the treatment of acute ischemic stroke

Objectives of this study are to determine the effect of task-oriented balance training on balance, postural stability and mobility in Stroke patients, to determine the effect of task-oriented balance training with sensory integration on balance, postural stability and mobility in post Stroke patients and to compare the effect of balance training with and without sensory integration on balance, postural stability and mobility in stroke patients. Study Design is Randomized control trial. Sample Size is 60 calculated through open Epi tool. Sampling Technique is Non-probability purposive sampling technique then randomization through sealed envelope method into control and experimental group. Duration of study is 6 months. Study Setting Rafsan Stroke Center Peshawar.

Introduction: Stroke continues to be one of the leading causes of disability in the Spanish adult population with the presentation of impairments such as alteration of mobility and a consequent reduction in quality of life. These sequelae, generally chronic, generates a significant expense and saturation of social and health services. With the growth in the number of cases, the development of new rehabilitation approaches and updating of the social context becomes pertinent, such as the incorporation of telerehabilitation to assist individuals with stroke. Objectives: To analyze adherence to physical rehabilitation by mobile App and to evaluate the effectiveness of lumbopelvic stability exercises performed at home with the App. Material and methods: Randomized controlled single blind pilot study (n = 30). Participants with Stroke (<6 months) will be randomized between two groups (App for carrying out lumbopelvic stability exercises + usual treatment versus usual treatment). The study will last 3 months and App adherence, Quality Of Life, participation in Daily Life, functionality, sitting balance, standing balance and gait will be taken as variables. Expected results: It is thought that the use of an App can contribute to rehabilitation in its chronic phase, monitorization and fallow-up the clinical evolution of the patient. Even if chronicity leads us to think about the stabilization of the physical condition, It is thought that the best results will be found among the subjects who will use the App.

The aim of our study is to determine the effect of respiratory physiotherapy applied on stroke diagnosis, balance, respiratory functions and respiratory muscle strength in addition to neurodevelopmental treatment in patients with stroke.

Over 15,000 Veterans are treated by the VA for stroke each year. A stroke means that part of the brain dies. Many people who have a stroke have difficulty with moving their arm, using their hand, and they have pain. Virtual reality is a video-game based treatment that may help people with stroke improve in these areas. Virtual reality involves using a computer and goggles to make a person feel like they are in a different world with new sights and sounds, relaxing on a beach where there is no pain, or playing the piano. In virtual reality, stroke patients can practice movement in a safe and motivating environment. For example, a person with stroke who has weakness in his/her arm can safely reach for plates in a virtual cupboard. In a virtual environment, the plates can't break. This study will help investigators to determine if people with strokes who are treated with virtual reality like it, and if they have less pain and better movement.

The aim of our study is to objectively and clearly determine the differences between the Spasticity and Decreased Functionality in the Upper Extremity Flexor Group Muscles After Stroke, the Vibration, mBZHT and Physiotherapy and Rehabilitation Applications in terms of treatment process and effectiveness, and to increase the use of the hands and upper extremities in the daily life activities of the patient.