View clinical trials related to Stroke.
Filter by:Pain is a common symptom experienced by people following stroke and can significantly interfere with participation in the activities of daily living and adversely affect health-related quality of life. Repetitive Transcranial Magnetic Stimulation (rTMS) promotes the modulation of brain activity and its prolonged and continuous application can effect plastic modification. Combining rTMS with rehabilitation treatment for primary motor cortex activation (using Gloreha® device) may have effect in reducing pain in stroke survivors. This is a pilot randomized control trial to test the effects of rTMS in stroke-related pain rehabilitation, its efficacy on pain, upper limb function, sensory function and autonomy in daily livings activities. Furthermore, we will explore the effects on pressure pain threshold, cortical excitability and EEG recording.
Stroke is the major cause of motor impairment and physical disabilities in the adult population. Spasticity and loss of dexterity are the common problems in stroke. Recently, current interventions, such as cycling training, virtual reality (VR) and repetitive transcranial magnetic stimulation (rTMS), were used for the treatment of upper extremity (UE) dysfunction in patients with stroke. However, few studies investigated the effects of the combinations of different treatment strategies using by integrating brain imaging and motor control studies. This project proposes different novel treatment strategies in the treatment of UE dysfunction in patients with stroke: combined inhibitory/facilitatory rTMS, VR-based cycling training (VCT), and combined rTMS and VCT. We hypothesize that the treatment effect of the combined protocol (optimal rTMS protocol and VCT) is more effective than single treatment due to integration of central and peripheral effects. Different treatment protocols will induce different changes in the brain reorganization and motor control, which further improve motor function, activity, participation, and health related quality of life (HRQOL).
The purpose of this research study is to test an experimental procedure called intra-arterial delivery of verapamil in patients diagnosed with acute ischemic stroke. This study investigates the safety of intra-arterial delivery of verapamil, a drug used to treat vasospasm (spasm of a blood vessel), and how it affects recovery from stroke. Recruitment is limited to patients that have received mechanical thrombectomy as standard of care.
Neurological deficits and motor disorders are extremely common after stroke. Physical therapies can improve the autonomy of these patients, but despite an intensive stationary neurorehabilitation, severe deficits often persist. Complementary therapies that could improve recovery would therefore be very welcome. Transcranial direct current stimulation (tDCS) induces, in a non-invasive way, a transient inhibitory or excitatory neuromodulation of certain cerebral regions. An increasing number of studies show that this modulation of brain activity can improve motor functions in patients with brain lesions and increase the effect of physical therapies. However, the "optimum" configuration of tDCS and the induced effects remain to be characterized and investigated. The investigators therefore propose to carry out a study including a pilot phase in order to determine the most efficient tDCS setup. The optimum setup of of the pilot phase will be compared to a placebo condition in a multicentric main study.
Comparisons of Two Types of Robot Assisted Gait Training: Exoskeleton Type Robot vs. End-effector Type Robot: Randomized Controlled Trial
The aim of this research will be to investigate in stroke patients whether upper limb motor function can be maximized in response to sensory stimulation by comparing protocols for the application of Transcranial Magnetic Stimulation (rTMS) in the cortical region of S1 and Sensory Therapy in the upper limb paretic. Patients will be randomly and randomly allocated into four groups, Group 1 (G1) composed of individuals who will receive the protocol for the application of rTMS in the ipsilateral S1 cortex and fictitious sensory therapy in the paretic upper limb; Group 2 (G2) subjects will receive protocol of Sensory Therapy in the upper limb ethical and application of fictitious rTMS in the ipsilesional S1 cortex; Group 3 (G3): application of the protocol of application of rTMS in the ipsilateral S1 cortex associated with Sensory Therapy in the upper limb paretic and, G4 (GSHAM) control group in which fictitious rTMS will be performed and fictitious Sensory Therapy in the paretic upper limb).
For the breathing intervention, participants completed two experimental sessions at least two weeks apart. The experimental sessions were randomized between the slow-breathing condition (6 breaths/min) or the control breathing condition (12 breaths/min). Breathing interventions were 15 minutes in length and completed with the assistance of the breathing app, Breathe Deep (Mineev, Bizi Apps LLC). The breathing intervention is currently completed. The reliability and validity study of AFAS is ongoing. This is a one-time visit for participants in which participants will undergo screening of sensation and movement as well as fill in some questionnaires.
This study evaluates the effect of a unique session of inhibitory rTMS (cTBS) over the contralesional posterio parietal cortex (PPC) on the spatio-temporal parameters of a pointing movement performed by stroke patients with their paretic upper limb. It will also assess the effects on the resting motor threshold of both hemispheres and on parietopremotor connectivity. To achieve theses aims, the real cTBS stimulation will be randomly counterbalanced with a SHAM stimulation (in a second session) in a crossover design. Assessments will be performed before and after each stimulation session.
The Stroke Recovery Initiative is a nation-wide participant recruitment registry that connects people who have had a stroke with researchers who are working to develop new approaches to improve recovery after stroke.
This study examines how to best assess and treat post-stroke neglect. This study will examine the preliminary effects of an innovative intervention (repetitive task-specific practice + transcranial direct current stimulation) for individuals with neglect. This study will also determine whether items from various neglect assessments can be combined to establish a more comprehensive neglect measure.