View clinical trials related to Stroke.
Filter by:Phase III, single-centre, double-blind, randomised, placebo-controlled, parallel-group trial to evaluate the efficacy and safety of oral Vitamin E (Mixed Tocotrienol) for 6 months in patients with moderate ischemic stroke. 150 patients will be recruited and randomized to receive either placebo or mixed tocotrienol 200mg twice a day for 6 months. Patients will be followed up and assessed on their functional recovery.
KETA trial is a nonprofit, double-blind, randomized, controlled pilot trial with aiming to determine if co-administration of ketamine with recombinant of tissue type plasminogen activator (tPA) for thrombolysis in acute ischemic stroke compared with tPA co-administered with placebo, decreases cerebral infarction growth in diffusion weighted imaging between admission and day 1. Eligibility applies to patients with symptomatic ischemic stroke seen within 4.5 h of onset with middle cerebral artery or distal internal carotid artery occlusion, no contraindication to intravenous tPA-mediated thrombolysis and eligible to endovascular treatment of stroke (i.e. thrombectomy). The study has been designed to have 80% power to detect a 80% decrease of infarct volume growth in the tPA-ketamine group at a two-sided type I error rate of 5%. For this purpose, at least 25 patients per arm should be enrolled.
It has been found that arm and leg cycling is similar to walking in terms of the muscle activation patterns and joint ranges of motion. In addition, arm and leg cycling and walking activate similar neural pathways. Another advantage of arm and leg cycling is that it involves coordination of all four limbs in a rhythmic movement. This may be particularly beneficial given previous findings that arm movement contributes to the activation of leg muscles during walking in humans. This is achieved with interconnected neural pathways that link the arms to the legs. These neural interlimb connections remain intact in stroke victims, such that maximizing the contribution of the arms to the legs may increase coordination for walking. Thus, the objectives of this research are to determine if arm and leg cycling can be used to increase the strength of interlimb connections and if this helps to improve walking ability in a post-stroke population. It is hypothesized that arm and leg cycling will transfer to improvements in walking in a post stroke population.
Concomitant use of botulinum toxin and robot would make better results regarding upper extremity function compared to robot, botulinum toxin, or no intervention.
Atrial fibrillation (AF) is the significant risk factor of ischemic stroke with incidence about 20% of all ischemic strokes. The undiagnosed AF in cryptogenic stroke patients could be present but not revealed by rutinne ECG.
Purpose: The incidence of stroke in low-to-middle income countries is increasing .Balance impairment and falling negatively impact function of stroke patients. Mobility is based on successful postural control and about 30% of individuals with stroke are unable to ambulate without assistance.Transcranial direct current stimulation (tDCS) is a new promising tool for motor recovery in neurological disease.This can be addressed through a tDCS intervention. Objective:The objectives of this study is to examine the efficacy of anodal tDCS combined with Biodex balance training on postural control in chronic stroke patients using laboratory and clinical assessments. The following essential treatment components; a) active tDCS stimulation paired with Biodex balance training, b)sham tDCS paired with Biodex balance training program. To identify combinations effects of tDCS stimulation plus balance training . Hypothesis: Anodal tDCS targeting leg motor area (CZ) for 5-days plus Biodex balance training, will significantly improve stroke clients' balance and functional mobility. Double blinded sham -controlled randomized tDCS stimulation Arms Assigned Interventions Experimental: Arm 1 tDCS brain stimulation and simultaneous balance training Participants underwent Active tDCS brain stimulation (20 minutes) and simultaneous balance training(20 minutes) for 5 consecutive days. No Intervention: Arm 2 Sham tDCS brain stimulation (20 minutes) and simultaneous balance training
Motor deficits are common after stroke, being one of the major causes of disability in this population. Because of the impact that motor impairments have in the life of patients and the associated financial costs, it is a health care priority to develop effective and efficient treatments to restore motor deficits. Music-supported therapy (MST) has been recently developed to enhance the use of the affected extremity after stroke. In the present project, a new multidisciplinary approach (neurology, neuropsychology, music and cognitive neurosciences) will be undertaken in order to investigate the effectiveness of MST as a neurorehabilitation technique to restore the motor function in stroke patients. In addition, the complex pattern of reorganization of the sensorimotor system will be studied in order to provide information about the physiological mechanisms underlying the neurorehabilitation process. A randomized controlled trial is proposed to compare for first time the effectiveness of MST (at the hospital and at home) compared to conventional treatment in subacute stroke patients suffering from motor deficits. Our hypothesis is that patients will experience a large improvement in the functional use of the affected arm due to the implementation of the MST program when compared to conventional treatment. We also expect to observe improvements in cognitive functions, mood and quality of life. Besides, we hypothesize that these amelioration in motor and cognitive domains will be accompanied by neuroplastic changes in the sensorimotor cortex and corticospinal tract.
The purpose of this study is to evaluate the diagnostic value of serum NT - proBNP in stroke associated with nonvalvular atrial fibrilltion.
Post-stroke sensorimotor recovery largely depends on ipsilesional and interhemispheric motor circuit reorganization. Transcranial direct current stimulation (tDCS) may be used to enhance after-effects of rehabilitation through membrane polarization modulation. In this double-blind, crossover randomized controlled trial, we aim to investigate whether single-session, bihemispheric tDCS to the primary motor cortex (M1) in combination with upper extremity rehabilitation therapy modulates ipsilesional motor circuit excitability using transcranial magnetic stimulation (TMS) and magnetoencephalography (MEG) measures.
Three purpose of this study: 1. Increase diagnosis rate and formulate the flow of diagnosis and treatment of AF in ischemic stroke patients; 2. Evaluation on specificity and sensitivity of STAF score; 3. Analyze the pathogenesis of ischemic stroke and risk factors and establish clinical database and sample database of ischemic stroke.