View clinical trials related to Stroke.
Filter by:To determine if using targeted high definition transcranial direct current stimulation can improve upper extremity motor function in patients with subacute middle cerebral artery (MCA) stroke.
The objective of this study is to show that the measurement of auditory and vibro-tactile evoked potentials, or the recording of the EEG signal during a motor imaging task, can be used in routine clinical situations to explore the state of consciousness of subjects in Non-responsive Awakening (or Chronic Vegetative State) or in Minimal Consciousness (or relational state) after a severe brain injury. Assumptions : - Correlation between patient response rates obtained with the brain-machine interface and their clinical consciousness score (Coma Recovery Scale Revised score) - Differentiation of the parameters of the evoked potentials P300 between patients in a vegetative state and those in a state of minimal consciousness
To analyze the real situation of intravenous thrombolysis in acute ischemic stroke in China
To investigate, through ethnography, changes in symptom burden and disability and their effects/interference on patient functioning, ability to perform activities of daily living (ADL) and quality of life (QoL) throughout the duration of one BoNT-A treatment cycle.
Despite the functional importance, fingertip forces are rarely explicitly addressed with feedback in therapy. This gap in treatment is due to a lack of tools to provide explicit feedback on patients' volitional finger force generation. To address this unmet need, the investigators developed a novel tool for practice of volitional three-dimensional (3D) force generation with explicit feedback. The objective of this project is to determine if 3D finger force training is an effective tool in restoring hand function post stroke.
Compare the safety and effectiveness of pRESET to Solitaire in the treatment of stroke related to large vessel occlusion
This is a proposal to develop a Balanced Reach Training Protocol (BRTP) to evaluate and train dynamic standing balance. The BRTP is based upon the Balanced Reach Test (BRT) that the investigators previously developed and validated. In the BRT subjects stand and point to a target disk moving unpredictably across a large projection screen in front of them without stepping. Body movements undertaken to track the disk are integral to many daily activities and represent an important class of "expected" balance disturbances that can precipitate falls. The BRTP employs engineering and psychophysical methods, and exploits advances in real time computing in a novel and innovative way to more effectively evaluate and train balance function. The BRTP presents a challenging reaching/tracking task that subjects perform at their limit of balance. The BRTP is an objective, quantitative test that can evaluate balance function without floor or ceiling effects, and train balance across the spectrum of aging, disease, and injury.
This research project will investigate neurofeedback training in stroke rehabilitation during which patients receive feedback in real time from their brain activity measured with ElectroEncephaloGraphy (EEG). The investigators hypothesize that the feedback training allows to internally stimulate brain motor networks in order to promote functional recovery of the hand.
Despite the functional importance, fingertip forces are rarely explicitly addressed with feedback in therapy. This gap in treatment is due to a lack of tools to provide explicit feedback on patients' volitional finger force generation. To address this unmet need, we developed a novel tool for practice of volitional three-dimensional (3D) force generation with explicit feedback. The objective of this project is to determine if 3D finger force training is an effective tool in restoring hand function post stroke.
Stroke is a leading cause of disability, institutionalization, readmission and death. This research is being completed to accelerate the adoption of evidence-based therapy practices that improve overall stroke care and outcomes. We will implement a feasibility randomized controlled trial (RCT) studying the implementation of a stroke specific chronic disease self-management program. Specifically, if the person is identified to have a chronic vision impairment identified on the vision screen, a specific low vision self-management program will be used. Otherwise the program that will be used is the generic chronic disease self-management program.