Active clinical trials for "Stroke"

Background and purpose: About 30% of people with stroke suffered from severe long-term upper extremity （UE） motor impairment. Severe UE impairment, especially dysfunction of hand, can greatly impact stroke patients' daily living independence and quality of life. However, treatment effect of current interventions is still limited. Nick Ward and Leonardo Cohen suggested 5 intervention strategies for stroke motor recovery: （1） reduction of somatosensory input from the intact; （2） increase in somatosensory input from the paretic; （3） anesthesia of a body part proximal to the paretic hand; （4） activity within the affected motor cortex may be up-regulated; （5） activity within the intact motor cortex may be down-regulated. Recent studies have shown each strategy to be effective in stroke patients with mild or moderate UE impairment. However, evidence for people with severe UE impairment after stroke remains unclear. Since research has found a greater effect for combined strategies than a single strategy, this proposal develops a combined intervention with the above 5 strategies, named "transcranial direct current stimulation （tDCS） combined sensory modulation intervention". This intervention is expected to be most effective for people with severe UE impairment after stroke. In addition, neuroimaging can provide in vivo information about the brain plasticity which underpinning the motor recovery after stroke. However, image indexes that can be used in stroke patients with severe UE impairment remained examined. Therefore, this proposal has 3 aims: （1） to examine the treatment effect of the "tDCS combined sensory modulation intervention" in stroke patients with severe UE impairment; （2） to examine the underline mechanism of the efficacy of "tDCS combined sensory modulation intervention" using neuroimaging technology. Methods: This study is a double-blinded randomized controlled trial which will recruit 60 people who have had stroke onset more than 6 months and have severe UE motor impairment. All participants will be randomly assigned into 2 groups. The experimental group will be given the "tDCS combined sensory modulation intervention", combining bilateral tDCS stimulation, anesthesia techniques and repetitive passive motor training. The control group is given sham tDCS, sham anesthesia and repetitive passive motor training. Each group will be evaluated for outcomes at 4 time points （i.e. baseline, post-intervention, 3 months and 6months post-intervention）. The immediate and long-term effect of the interventions will be examined. Primary outcome indicators include upper extremity impairment measures. Secondary outcome measures include upper extremity function, activities of daily living function, functional Magnetic Resonance Imaging （fMRI）, and corticospinal tract structural integrity using diffusion spectrum imaging （DSI）. Fifteen subjects of each group will be assessed 2 times （i.e., prior to the intervention and after the intervention） for fMRI and DSI scan. Anticipatory results and contributions: The results of the studies are expected to present a potentially effective intervention for stroke patients with severe impaired UE motor. Imaging evidence of brain plasticity for this particular intervention is also provided. The results will contribute to our understanding of brain plasticity for UE motor recovery after stroke. Findings from this proposal may help researchers and clinicians choose or develop interventions that are optimal to their clients individually.

This randomized trial tests the effect of early blood pressure reduction on major disability and death among patients with acute ischemic stroke in china.

Stroke is the most common cause of adult disability. Current treatments for functional loss of the upper extremity post-stroke remain limited in efficacy, particularly for those with moderate to severe impairment. Previous studies have demonstrated the efficacy of transcranial direct current stimulation (tDCS) for motor recovery post-stroke, a technique of neuromodulation. Motor imagery is effective to enhance motor recovery, with activation of neural pathways similar to that of motor execution. This treatment is accessible to more severely impaired stroke survivors. Our previous studies have demonstrated feasibility and efficacy of motor imagery-based brain computer interface (MI-BCI) for post-stroke motor impairment, in which motor imagery is detected by surface EEG and translated to execution of the target movement with the aid of an arm robot (MIT-Manus). In this study, we investigate the feasibility of combining robot-assisted MI-BCI training, with tDCS to facilitate post-stroke motor recovery in moderate to severe impairment of upper extremity function. We hypothesise that both tDCS-BCI and sham-BCI will improve motor function in the stroke-affected arm; but that tDCS-BCI will be more effective than sham-BCI. Our secondary aim is to gain insight into the neurophysiological mechanism by comparing the cortical excitability changes following sham-BCI vs tDCS-BCI, using transcranial magnetic stimulation (TMS). We will conduct a randomized, double-blinded study with MI-BCI combined with tDCS (tDCS-BCI) vs MI-BCI combined with sham-tDCS (sham tDCS-BCI). Subjects will undergo 10 sessions of tDCS each lasting 20 minutes, followed by 40 minutes of robot-assisted MI-BCI training at each session. Primary outcome will be functional ability measured by upper extremity component of the Fugl-Meyer Assessment. Secondary outcome measures will be the Box & Block Test, Modified Ashworth Score (measuring spasticity), grip strength and measures of brain activity including transcranial magnetic stimulation (TMS) measures of magnetic resonance imaging (MRI) measures including functional MRI and diffusion tensor imaging (DTI). This study will be important to develop a new and effective treatment (tDCS-BCI) for post-stroke motor impairment.

Given previous evidence that non invasive brain stimulation enhances the effects of conventional therapies, this randomized sham-controlled trial with 4-weeks follow-up aimed to determine if the repetitive transcranial magnetic stimulation (rTMS)combined with conventional physical therapy (VRT) would be superior to physical therapy in improving upper limb function and quality of life with chronic stroke individuals.

This open label trial is conducted to investigate the efficacy and safety of allogeneic umbilical cord blood (UCB) therapy for patients with stroke.

The objective of this work will be compare the effects of two balance training programs, one Nintendo Wii Fit-based and the other traditionally-based without the use of a gaming system, on the (1) motor function, (2) cognition, (3) balance and (4) gait in chronic stroke patients. It is a prospective, single blinded, randomized clinical trial performed at Center of Research of the courses of Speech Therapy, Physical Therapy and Occupational Therapy of São Paulo University. Forty patients will be randomly assigned in control and experimental group, 20 each one.

This study aims to evaluate systematically and controlled the effectiveness of mental practice techniques and modified constraint- induced movement therapy (mCIMT)in the treatment of post-stroke patients with motor deficit in the upper limb. As well as finding a protocol of transcranial direct current stimulation(tDCS)that will maximize the effects of the practice of mental image and mCIMT. To this end, the subjects included will be submitted to 12 therapy sessions with active or sham tDCS combined with at least one of the following techniques: conventional physiotherapy, mental practice technique or mCIMT

The purpose of this study is to evaluate the safety and efficacy of Botulax® compared to Botox® reducing upper limb muscle tone in post stroke patients.

The purpose of this study is to determine the effectiveness of training hand movement using FINGER robot after stroke. FINGER is a robot that measures finger movements and allows users to play computer games using those movements.

Specific aim: To test the effects of nasal expiratory positive airway pressure (EPAP) therapy on sleep apnea severity among patients with recent ischemic stroke. Hypothesis 1: Ischemic stroke patients with sleep apnea will have less severe sleep apnea, as measured by the apnea-hypopnea index (AHI), with nasal EPAP therapy compared with a control night. Hypothesis 2: Ischemic stroke patients will have higher mean levels of oxygen saturation with nasal EPAP therapy compared with a control night.