View clinical trials related to Stroke.
Filter by:Objective: To investigate the acute effect of mirror therapy (MT) on motor control, manual dexterity and spasticity of the paretic upper extremity (UE) of individuals with chronic hemiparesis after stroke, during reaching task. Design: Randomized cross-over single-blinded trial. Subjects: Thirty-three patients post chronic stroke were recruited of the study. Intervention: Patients who first participated in the MT intervention performed a single session of MT, whereas in the control intervention a single session composed of the same exercises was performed, but without the mirror. After a month washout, the patients switched groups. Main measure: The primary outcome measure was motor control. The secondary outcome measure was manual dexterity and UE spasticity. The data will be expressed as mean and 95% confidence interval (continuous variable) and absolute frequency (categorical variables). To compare the outcomes of the different experimental sessions and at the different moments (pre and post session), the Generalized Estimating Equations with post hoc LSD (Least Significant Difference) methods will be used. For all analysis the significance level was set at α = 0.05 and statistical software SPSS (Statistical Package for Social Sciences for Mac, version 22.0, IBM, USA) will be used. Key words: Stroke, mirror therapy, upper extremity, kinematic analysis
Observational Study to investigate the technical feasibility, implementation into current diagnostic and treatment pathways and the diagnostic accuracy of the remote patient assessment by using mobile telecommunication ahead of hospitalization.
A feasibility study to investigate the effect of an online mindfulness programme (www.bemindfulonline.com) on stroke survivors' mental and physical wellbeing.
Despite the wide-spread use of botulinum toxin (BT) to treat spasticity (increased muscle tone) in central neurological disease, evidence-based guidance on dosing, dilution, and injection technique is limited. The wide-spread use of BT in spasticity management, expense of these agents, and detrimental impact from movement into non-injected muscles mandates a better understanding of BT movement within muscles. A proof-of-concept paper written by investigators at Weill Cornell Medicine introduced a non-invasive MRI approach with "voxel thresholds" that was able to detect intramuscular effects of BT at 2 and 3 months post-injection of BT. The purpose of the current set of studies is to refine this MRI technique to better visualize the movement of botulinum toxin through muscle. In addition, the investigators plan to explore, using the imaging technique, how spastic muscle and differing dilutions affect BT movement in an effort to support the development of better research techniques to study toxin movement in human muscle.
Acute ischemia stroke (AIS) is the leading cause of death in China. Thrombolytic therapy with recombinant tissue plasminogen activator (rt-PA) has been proven to reduce disability in AIS patients within 4.5 hours after symptom onset. However, only 2% of AIS patients received thrombolytic therapy in China. Perfusion imaging is demonstrated to increase the rate of thrombolytic therapy by identifying the ischemic infarct core (the brain tissue that is irreversibly injured) and the ischemia penumbra (the brain tissue surrounding the ischemia infarct core that is hypoperfused but still viable) for those patients with extending therapeutic window (beyond the current 4.5 hours after symptom onset), as well as minor stroke or those with atypical symptoms. Three prospective clinical trials, DEFUSE, DEFUSE-2 and EPITHET, has confirmed that mismatch between perfusion weighted-imaging (PWI) and diffusion weighted-imaging (DWI) correspond to the ischemic penumbra whereas DWI provides information of the ischemia infarct core and major reperfusion relate to good clinical outcome in extending therapeutic window AIS patients with DWI-PWI mismatch. Computed tomography perfusion (CTP) may be a potential alternative technology for recognition of reversibly damaged brain tissue in AIS patients, with the prominent advantage of fast scan. Recent studies also demonstrated that CTP could select eligible candidates for reperfusion therapy. More recently, with data of EXTEND-IA, reperfusion therapy in AIS patients with CTP mismatch (using a CT time to maximum >6 s as ischemic hypoperfusion volume and a CT relative cerebral blood flow <30% of that in normal tissue as ischemic core volume) were related to good clinical outcome. However, plenty of studies demonstrated CT cerebral blood volume did not always predict ischemic infarct core in AIS patients. A recent study also confirmed the poor contrast: noise ratios of CT cerebral blood volume and CT cerebral blood flow result in large measurement error, compared with those of diffusion weighted imaging (DWI), making it problematic to substitute DWI in selecting individual AIS patients for reperfusion treatment. Based on those studies, it is still remained unclear whether CTP can be an alternative choice to replace magnetic resonance perfusion (MRP) in AIS patients with extending therapeutic windows. So in this study, the investigators try to determine whether baseline CTP profiles have a comparable ability to MRP in identifying patients who have a robust clinical response after early reperfusion.
To investigate acute metabolic and cardiorespiratory responses during overground gait training with a wearable exoskeleton in persons after stroke
To confirm efficacy and safety of VERSI system for acute ischemic stroke
To determine the relationships of a variety of nutrients, foods, and dietary patterns with the subsequent risk of developing type 2 diabetes, cardiovascular disease, and mortality in US men and women.
Background: A stroke occurs when not enough blood reaches the brain. Sometimes stroke causes changes in certain brain matter. This is called white matter hyperintensity (WMH) and can lead to mental decline. But not all WMH is caused by stroke. Not all people with WMH experience mental decline. Researchers want to learn more about WMH. They want to see if it is related to disruptions in the blood-brain barrier. Objective: To better understand the how blood-brain barrier disruption is related to white matter hyperintensities. Eligibility: Adults at least 18 years old who have been admitted to a study site with stroke-like symptoms Design: Participants will be screened with an MRI scan and cognitive tests. Participants will have 11 visits over 6 years. Each visit will be 3-4 hours. At each visit, participants will: Update their medical history Have a thin plastic tube (catheter) inserted into an arm vein by needle Have an MRI. The scanner is a metal cylinder in a strong magnetic field. Participants will lie on a table that slides in and out of the cylinder. Participants will be in the scanner about 60 minutes, lying still for up to 20 minutes at a time. They will get earmuffs for loud sounds. Have a dye injected through the catheter during the MRI Have tests of movement, language, and cognition Some participants will have an extra visit for an MRI in a stronger scanner (7T MRI). Participation for some participants will be authorized by their legal representative.
Prediction of recovery from stroke can assist in the planning of impairment-focused rehabilitation. To achieve better prediction for clinical purposes, this study investigated a new prediction model with low inter-individual variability and high accuracy using neuroimaging techniques.