View clinical trials related to Cerebral Infarction.
Filter by:Stroke is the leading cause of adult disability in Europe and United States and the second leading cause of death worldwide and affects more than 10,000 Danes each year. Studies in a late and stationary phase after stroke have shown that physical rehabilitation is of great importance for survival and physical ability of these patients, however many studies show that patients lie or sit next to their bed under hospitalization for more than 88.5 % of the daily hours. Physical activity in stroke patients has never previously been measured immediately after debut of symptoms; furthermore there is no knowledge about the optimal dose of physical rehabilitation for these patients. Accelerometers, small measuring devices, are a relatively new way to measure physical activity precisely, and hence it is possible to obtain an objective measure of how active stroke patients are in the first week after admission. The accelerometers measure a variable voltage, depending on the range and intensity of movement. They can measure movement dependent of the placement of the accelerometer, for instance over the hip, arm or leg. Studies confirm their reliability, even in patients with abnormal gait, such as stroke patients. Another approach of studying the effects of physical activity and rehabilitation is through the examination of biomarkers. Studies have shown that biomarkers released during physical activity can inhibit biomarkers released after tissue injury in the brain, as seen after stroke. These brain biomarkers cause further damage and studies show that the higher the levels, the higher the damage. It is therefore obvious to examine whether physical activity rehabilitation can down regulate this destructive process in patients with stroke. Clarification of the optimal dose of physical activity in stroke patients immediately after debut of symptoms and examination of both the biochemical aspects of physical rehabilitation as well as the optimal dose of physical rehabilitation is of great importance for many patients, their relatives as well as of a great socioeconomic importance. The purpose of the project is to investigate feasibility of treadmill training on a weight-bearing treadmill in the acute phase after admission after an ischemic stroke. Furthermore we wish to investigate the acute inflammatory response after ischemic stroke and whether it changes with treadmill training.
In this clinical study, the efficacy and safety of ALbumin is to be evaluated for the patients occurred within 12 hours of acute ischemic stroke.
Phase IIa clinical trial, pilot, single centre, prospective, randomized, double-blind, placebo-controlled, with sequential inclusion of patients
The study is to assess the safety and possible efficacy of umbilical cord blood mononuclear cells (UCBMC) treatment of chronic ischemic stroke.
Stroke is one of the three leading causes of human death, and a major cause of adult disability. Our pre-clinical studies confirmed that ischemic preconditioning can prevent cerebral infarction. Animal studies confirmed that ischemic postconditioning can reduce infarct size of cerebral infarction. Investigators hypothesized that postconditioning would reduce infarct volume of ischemic stroke patients.
This trial will enroll patients that have been diagnosed with a transient ischemic attack (TIA) or minor stroke that has occurred within the past 12 hours. Anyone diagnosed with a minor stroke faces the possibility of long-term disability and even death, regardless of treatment. Stroke symptoms such as weakness, difficulty speaking and paralysis may improve or worsen over the hours or days immediately following a stroke. The purpose of this research trial is to study the effects of a clot-dissolving drug, tenecteplase (TNK-tPA), as a treatment for patients who arrive within twelve hours from stroke onset. This study is attempting to see if TNK-tPA given through a vein in the arm (intravenous) to patients is a safe treatment for stroke patients. Neither the safety nor the effectiveness of this treatment has been proven yet. This trial will be conducted at several site in Canada. Dr Michael Hill and Dr. Shelagh Coutts are the Principal Investigators of this trial, coordinated at the University of Calgary, Foothills Medical Centre.
Rehabilitation after stroke improves motor functions by promoting plastic changes however, after completing standard rehabilitation, 50-60% of patients still exhibit some degree of motor impairment and require at least partial assistance in activities of day living. Therefore, the exploration of other approaches to promote recovery is compulsory. Non invasive brain stimulation and motor rehabilitation are thought to share similar mechanisms in inducing neuroplastic changes in the human cortex and an emerging field of research is focusing on the possibility of coupling both therapies in order to achieve an additive effect and improve outcome. We hypothesize that coupling bihemispheric transcranial direct current stimulation (tDCS) with simultaneous physical/occupational therapy in the subacute phase of ischemic stroke patients may improve upper limb motor recovery in humans. This is a randomized, controlled, double blind, cross-over, multicentre, clinical trial. Thirty-six ischemic stroke patients in the subacute phase will be recruited in three centers of neurorehabilitation in Switzerland. After stratification based on the Fugl-Meyer Assessment Upper Extremity according to the severity of the deficit, the patient will be randomized to receive besides standardized physical/occupational treatment according to the Impairment-Oriented Training, tDCS of themotor cortex (1.5 mA, 30 minutes) (group 1: 12 patients) or sham stimulation (without current) (group 2: 12 patients). After three weeks of treatment group 1 and 2 will cross-over and will be treated for other three weeks. Group 3 (12 patients) will receive routine physical/occupational treatment and sham tDCS for six weeks. Assessment will be performed before starting tDCS, at week 3, 6 and at 6 months. Outcome measures are the Fugl-Meyer Assessment Upper Extremity, the extended Barthel Index, the Ashworth scale, the Test of Upper Limb Apraxia (only baseline, week 6, month6), the grip strength evaluated by the Jamar Hydraulic Hand dynamometer. At baseline at week 6 and at month 6 depression will be assessed by the Hamilton depression Rating Scale.
intravenous rt-PA is effective to reduce the risk of death or dependency after ischaemic stroke. This effect is due to an early recanalization secondary to the lysis of the clot. However this effect may be counterbalanced by the increased risk of bleeding and also the neurotoxicity of rt-PA, which has been shown in animals to depend on the ratio single chain (sc) / double chain (tc) in the rt-PA administered. The main objective of OPHELIE is to determine whether the functional outcome after treatment by iv rt-PA depends on the ratio sc-rtPA / tc-rtPA. Secondary objectives were to identify the influence on the risk of brain haemorrhage, and the influence of the cognitive state (OPHELIE-COG substudy).
The objective of this multi-centre, randomized controlled trial is to investigate the outcome after induced hypertension versus no induced hypertension in patients with delayed cerebral ischemia (DCI) after aneurysmal subarachnoid hemorrhage (SAH), and to assess whether induced hypertension results in improved cerebral blood flow (CBF) as measured by means of perfusion-CT.
Stroke is the leading cause of adult disability in Europe and United States and the second leading cause of death worldwide and affects more than 10,000 Danes each year. Studies in a late and stationary phase after stroke have shown that physical rehabilitation is of great importance for survival and physical ability of these patients, however many studies show that patients lie or sit next to their bed under hospitalization for more than 88.5 % of the daily hours. Physical activity in stroke patients has never previously been measured immediately after debut of symptoms; furthermore there is no knowledge about the optimal dose of physical rehabilitation for these patients. Accelerometers, small measuring devices, are a relatively new way to measure physical activity precisely, and hence it is possible to obtain an objective measure of how active stroke patients are in the first week after admission. The accelerometers measure a variable voltage, depending on the range and intensity of movement. They can measure movement dependent of the placement of the accelerometer, for instance over the hip, arm or leg. Studies confirm their reliability, even in patients with abnormal gait, such as stroke patients. Another approach of studying the effects of physical activity and rehabilitation is through the examination of biomarkers. Studies have shown that biomarkers released during physical activity can inhibit biomarkers released after tissue injury in the brain, as seen after stroke. These brain biomarkers cause further damage and studies show that the higher the levels, the higher the damage. It is therefore obvious to examine whether physical activity rehabilitation can down regulate this destructive process in patients with stroke. Clarification of the optimal dose of physical activity in stroke patients immediately after debut of symptoms and examination of both the biochemical aspects of physical rehabilitation as well as the optimal dose of physical rehabilitation is of great importance for many patients, their relatives as well as of a great socioeconomic importance. The purpose of the project is to investigate which dose (15 vs. 2 x 30 minutes) of physical activity on a weight-bearing treadmill in the first 5 days after admission after an ischemic stroke, gives patients the best improvement in neurological dysfunction.