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Active clinical trials for "Stroke"

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Acute Subcutaneous SemaglutidE in Acute Ischemic sTroke

Acute Ischemic Stroke

Can Semaglutide help reduce the damage caused by a stroke? ASSET trial is a national, multicenter, clinical trial, investigating the safety and efficacy of Semaglutide in non-diabetic patients with acute ischemic stroke. Stroke is a worldwide leading cause of long-term disability and death. In the most common type of stroke (ischemic stroke), a blood clot obstructs an artery in the brain, and thereby prevents oxygenated blood from reaching an area of the brain. Brain cells are particularly vulnerable to the lack of oxygen. In the areas most severely affected by a stroke, brain cells die after 5 minutes. As more time pass, the affected area expands, and more brain cells perish. Today, efficient treatments aiming at reestablishing the flow of blood by either breaking down the blood clot (thrombolysis) or removing the clot (thrombektomi) are used. However, a significant amount of patients undergoing succesful treamtent, still suffer permanent disability following an ischemic stroke. Semaglutide mimics a naturally occurring hormone (glucagon-like peptide-1) and is currently used to treat diabetes and obesity. However, semaglutide has also been shown to possess neuroprotective abilities in recent animal studies, where it reduced the damage caused by ischemic stroke in rats. This study sets out to investigate if it's possible to utilize Semaglutide, to increase the resilience of brain cells in patients with an acute ischemic stroke, with the aim of bettering their outcome. The participants consist of non-diabetic patients with acute ischemic stroke, who will be randomized to: Treatment with subcutaneous Semaglutide, or No additional treatment (control group) Both groups will be treated according to the standard national guidelies for acute ischemic stroke. The two groups will then be compared to see, if patients in the group treated with Semaglutide are less impacted by their stroke.

Recruiting11 enrollment criteria

Motor Imagery and Motor Execution Based BCI in Stroke

StrokeNeurorehabilitation3 more

About 50% of stroke patients are unable to live independently because of residual disability. Brain-computer interface (BCI) is based on closed-loop theory, which facilitates neurological remodeling by establishing a bridge between central and peripheral connections. Studies have confirmed that BCI real-time neurofeedback training system based on motor imagery alone can effectively improve patients' motor function. So, is the benefit greater if motor imagery is combined with motor execution? Current conclusions are mixed. In addition, previous studies and our preliminary study found that prefrontal Fp1 and Fp2 areas play an important role in motor recovery after stroke, and they are involved in motor imagery, motor execution, attention and other behavioral processes. Therefore, we designed a BCI training system based on motor imagery and motor execution with prefrontal electroencephalogram (EEG) signals as the modulatory target. This was a randomized placebo-controlled double-blinded clinical trial. Patients in the test group performed BCI-controlled upper extremity motor imagery + upper extremity pedaling training. The control group had the same equipment and training scenario, and patients were also asked to imagine the upper extremity pedaling movement with effort, and patients also wore EEG caps, but the EEG signals were only recorded without controlling the pedaling equipment. After 3 weeks of treatment, we observed the changes of motor and cognitive functions as well as fNIRS-related brain network characteristics in both groups.

Recruiting7 enrollment criteria

Upper Limb tDCS in Chronic Stroke Patients (NOURISH)

Stroke

This study is a randomized double-blinded trial investigating the effect of Transcranial Direct Current stimulation (tDCS) on upper limb motor function rehabilitation in chronic stroke patients. 51 subjects will be recruited from National University Hospital (NUH) and be randomized to receive one of the followings: Group 1 will receive 1 mA anodal tDCS stimulation to the ipsilesional M1 of cortical representation of the affected upper limb; Group 2 to receive 1mA anodal tDCS to the contralesional premotor cortex; Group 3 to receive sham tDCS stimulation with anode placed over the scalp area corresponding to ipsilesional M1. tDCS will be performed once a day together with standardized occupational therapy (GRASP) for 20 sessions within 30 days. Group 1 and Group 2 will receive tDCS for 20 minutes during each session, while Group 3 only receives the current stimulation for 20 seconds. GRASP will be performed daily together with tDCS, either concurrently with or immediately after tDCS stimulation. The outcome measures will be measured at baseline, after intervention and 1 month after intervention, including: TMS measurement of corticospinal excitability; functional MRI scan; High density EEG (HD-EEG) evaluation; Clinical measures on upper limb motor function; Cognitive tests.

Recruiting13 enrollment criteria

Liu-Zi-Jue Exercise Combined With Conventional Rehabilitation Treat Dysphagia in Post-stroke

StrokeDysphagia

In this study, a prospective, randomized controlled method was adopted, with patients with post-stroke dysphagia as the main research objects, applying "Liu-Zi-Jue" to the patients for rehabilitation intervention, and to explore the effect of "Liu-Zi-Jue" on the swallowing function of patients with post-stroke dysphagia. In order to provide a safe and effective TCM treatment plan for patients with dysphagia after stroke, reduce the disability rate after stroke and improve the quality of life of patients.

Recruiting9 enrollment criteria

Xeomin® and Gait Related Mobility After Stroke

Stroke

The aim of the present pilot study is to evaluate the association between change in gait related mobility in ambulatory male and female adult hemiparetic patients before and 4-6-weeks after Xeomin® injection into the upper limb, using two standardized tests of physical function in outpatient rehabilitation that are widely used; the 10-meter walk test and the timed 'up and go' test (TUG).

Recruiting12 enrollment criteria

Distal Ischemic Stroke Treatment With Adjustable Low-profile Stentriever

Ischemic StrokeNeovascularization

The objective of the DISTALS Study is to evaluate the safety and effectiveness of the Tigertriever 13 Revascularization Device in restoring blood flow in the neurovasculature by removing thrombus in patients presenting within 24 hours of onset with an ischemic stroke with disabling neurological deficits due to a primary distal vessel occlusion (DVO), as compared to medical management.

Recruiting38 enrollment criteria

Effect of Overground Gait Training Using a Torgue-Assisted Exoskeletal Wearable Device on Ambulatory...

Subacute Stroke

Stroke is reported as one of leading causes of adult disability. Recent advances in in revascularization therapy have had a significant impact on clinical and functional outcomes in patients with ischemic stroke. However, revascularization therapy can only be applied to a limited population of patients. Many stroke survivors are still suffering from significant motor impairments and gait disturbance. The recovery of the ambulatory function in stroke patients is one of the most important goals of their rehabilitation and a critical factor influencing the patient's home and social activities. One of the most frequently occurring disabilities in stroke patients is the ambulatory impairment. Ambulation is a key factor in performing the activities of daily living. About 80% of stroke patients showed the ambulatory impairment in acute stroke phase, and many stroke patients were not fully regain the ambulatory function although the ambulatory function was rapidly restored within 6 months after onset. Because the ambulatory function is the most important relating factor on activities of daily living and quality of life, one of the most important goals of stroke rehabilitation can be the achievement of independent gait. The conventional gait rehabilitation has been performed as a 1:1 training session between the therapist and a stroke patient. This gait rehabilitation can make a significant burden on the therapist and restriction of the rehabilitation time. The limited number of rehabilitation facilities and therapists for the number of stroke patients requiring rehabilitation means that many stroke patients might receive not enough gait rehabilitation. To overcome these issues, a lot of studies have been conducted to develop rehabilitation robots for effective gait training. Nonetheless, in previous studies regarding robot-assisted gait rehabilitation, the stroke patients varied in terms of their baseline gait ability, functional level, and onset of stroke. In addition, robots for gait rehabilitation robots were various such as exoskeletal, end effector and overground gait types with varied frequency, duration and intensity of the gait rehabilitation training. Such heterogeneity inevitably limited the quality of the studies as well as the application in clinical practice. For an adequate robot-assisted gait rehabilitation in clinical practice, the functional level and the phase of stroke patients should be taken into consideration. In addition, for the gait rehabilitation robots to be applied effectively, it also should be considered to have a defined indication as well as a protocol including frequency, duration and intensity of robot-assisted gait rehabilitation. A robot could have efficiency in assisting patients to practice correct and repetitive movements with the adequate quantity and intensity of training. The robot-assisted gait rehabilitation using a treadmill-based robot for location control has increased in stroke rehabilitation. However, the conditions of treadmill gait differ from those of actual overground gait so that the increase in gait ability after treadmill-based training might not directly translate into the improvement of overground gait. In addition, a drawback of such gait training using a robot for location control could be the difficulty in adapting the robotic movements to the patient's efforts to move the muscles and to the passive characteristics of the musculoskeletal system. On the contrary, overground gait training has been reported to improve the gait speed and endurance to a greater degree than treadmill gait training in stroke patients. Recently, overground gait training using an exoskeletal wearable robot has been proposed to promote the activation of the nervous system by inducing an active participation from the patient who performed active balance control, weight shift, and muscle activation. In the previous study, the effect of gait training using an exoskeletal robot was reported in patients with incomplete paraplegia caused by spinal cord injury. Nevertheless, lack of studies have reported on the effect of gait training using an exoskeletal wearable robot in subacute stroke patients.

Recruiting17 enrollment criteria

The Effect of Dual Tasks on ADL in Stroke

StrokeDual Task1 more

The aim of this study is to investigate the effectiveness of different dual-task practices on activities of daily living in stroke patients. The sample size was calculated as 18 people for each group and 36 people in total, with a 20% drop out. MC (Motor - Cognitive) group will receive 60 minutes motor - cognitive dual task intervention 5 day per week for 4 weeks in clinic. MM (Motor - Motor) group will receive 60 minutes motor - motor dual task intervention 5 day per week for 4 weeks in clinic. As the primary outcomes in the study; Modified Barthel Index will be used to evaluate basic activities of daily living, Nottingham Extended Activities of Daily Living Index designed specifically for stroke to evaluate instrumental activities of daily living, and Stroke Impact Scale 3.0 to evaluate participation in activities of daily living. As secondary outcomes; 10 Meter Walk Test will be used for functional mobility assessment, Timed Up and Go Test and Berg Balance Scale will be used for balance assessment, Motor Activity Log-28 will be used to assess upper extremity functions, and Montreal Cognitive Assessment Test will be used for cognitive status assessment.

Recruiting10 enrollment criteria

Augmented-reality Based Mirror Therapy in Stroke Rehabilitation

StrokeRehabilitation2 more

In the proposed study, the investigators assumed that mirror therapy combined with augmented reality technology will provide a better treatment effects than traditional mirror therapy for the patients with unilateral stroke. The aim of the study is to examine the difference in the treatment effects among the combination of task-oriented training with either augmented reality based mirror therapy, mirror therapy or traditional occupational therapy on the upper extremity function and brain activity of the stroke patients.

Recruiting7 enrollment criteria

Acute Effects of Beetroot Juice on Locomotor Economy and Capacity in Chronic Stroke

StrokeCVA

The purpose of this study is to investigate if a beetroot juice supplement can improve oxygen capacity during walking tasks at a submaximal and maximal effort in people greater than 6 months following stroke.

Recruiting10 enrollment criteria
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