View clinical trials related to Stroke.
Filter by:A stroke occurs when the blood circulation is hampered due an ischemic or hemorrhagic event. Previous, a stroke was treated only with anti-aggregation. Over time, multiple studies have showed a positive effect of intravenous thrombolysis with rt-PA (recombinant tissue plasminogen activator) in comparison with the standard treatment (anti-aggregation). Since 2015, thrombectomy was proven to have an added value in combination with thrombolysis. Thrombectomy is an endovascular technique where the thrombus is removed or fragmented. Diagnosis and treatment of stroke will have a significant impact on the health-economic status of the patient. However, little data is known. Unfortunately, the outcome after diagnosis with a stroke is not well documented. Therefore, this follow-up study over a time period of one year, will give us a sufficient amount of data to evaluate patients diagnosed with a stroke in the hospital of Genk.
Study to investigate if the study drug ticagrelor and ASA is more effective than Placebo (inactive tablet) and ASA in preventing new stroke events
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.
No formal primary care based model of care exists to support stroke survivors living in the community. A large variation in the range, quality and access to health services offered to stroke survivors between and within local clinical commissioning groups suggests that many of the stroke survivors' needs are not being met systematically. Therefore, to address the longer term needs we have developed a multi-factorial primary care model that seeks to enable greater engagement with stroke care and community services, to link effectively to specialist services, and to improve the lives of stroke survivors. This will be a two-arm cluster randomised controlled trial. Participating general practices will be randomised to deliver either the new model of stroke care or current usual care. The aim of this trial will be to assess the clinical and long-term cost effectiveness of the new model of primary care for stroke survivors living in the community. The primary outcome for the trial will be measured using two sub-scales (emotion and handicap) of the Stroke Impact Scale questionnaire at 12 months.
To study safety, feasibility and outcomes of combining osteopathic manipulative therapies with hyperbaric oxygen therapy in reducing the functional deficits in stroke survivors in subacute and chronic phases post ischemic stroke. To document the same as part of a pilot project in anticipation of further investigational studies.
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 goal of this study is to understand what brain mechanisms become disrupted when stroke survivors experience delirium. Delirium is an acute reduction in attention and cognition, associated with poor recovery, longer hospitalization and even death. One major factor increasing the risk of delirium after stroke may be spatial neglect occurring after stroke on the right side of the brain. Spatial neglect affects awareness, orientation, and movement. The study will test the hypothesis that the right-dominant brain networks for arousal and attention are affected in both of these disorders. It is expected that the activity and structural integrity of these brain networks will correlate with behavioral signs and severity of delirium and spatial neglect. To test this hypothesis, the study will measure spatial neglect and delirium symptoms in 45 acute (NYC Health + Hospitals/Bellevue ) and 30 subacute (Kessler Institute for Rehabilitation) stroke survivors and evaluate brain scans for these participants. This study may contribute to knowledge about brain bio-markers of delirium, which will greatly aid in delirium detection in stroke and other disorders.
This study evaulates the addition to the standard theraphy of enriched sensorimotor training by means of robotic glove therapy, or functional electrical stimulation in the treatment of chronic stroke patients with upper limb motor impairments. All the patients receive the conventional physiotherapic treatment. Supplemental to the conventional treatment, patients are evenly split in four groups to provide different treatments for an equivalent amount of time. Patient in the first group receive supplemental conventional therapy; patients in the second group receive robotic glove therapy; patients in the third group receive functional electrical stimulation; patients in the fourth group receive robotic glove treatment and functional electrical stimulation in different sessions.
This series of single case studies aims to test the feasibility and acceptability of an enhanced treadmill system for the recovery of gait function in stroke survivors. Forty adult participants who have had a stroke in the past year that resulted in impaired gait function and are attending a local hospital for gait training, will be recruited. Participants will be asked to attend a rehabilitation clinic for seven weeks, three times a week where they will receive enhanced treadmill training supervised by a physiotherapist. Assessment sessions will take place in week 1, weeks 5 and 8, and after 3 months. Outcome measures recorded during assessment sessions will include gait variables (e.g. speed, cadence, step length and joint kinematics) measured overground and on the treadmill using motion capture technology and outside using body worn sensors (inertial motion unit). Participants will complete a questionnaire on their community walking habits and asked to wear a physical activity monitor for 48 hours to record stepping time. The basic intervention will comprise of walking on a treadmill capable of adjusting its speed to match that of the user (using feedback from the motion capture system) and a large television screen showing a virtual reality scene (woodland walking) with visual perturbations (virtual obstacle avoidance). In addition participants will be divided equally and randomly (Latin square) to either wear an ankle foot orthosis (AFO group) or functional electrical stimulation (FES group) while walking on the treadmill but not provided for home use. Training sessions will last up to a max of 20 minutes, will be supervised by a physiotherapist and participants will wear a safety harness to remove any risk of trip falls. Any adverse event such as muscle/joint pain, illness or a fall at home will be recorded, participants and physiotherapists will also be asked for feedback on their experience with the treadmill system using questionnaires and semi-structured interviews
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.