View clinical trials related to Stroke, Ischemic.
Filter by:The design of the present study will be a multicenter prospective observational protocol. Approximately 100 patients will be recruited over the 24-month period with Acute Brain Injury (trauma brain injury, intracerebral hemorrhage, subarachnoid hemorrhage, ischemic stroke), who in their acute phase of intensive care unit require placement of a catheter capable of monitoring intracranial pressure (intra parenchymal catheter or external ventricular shunt). In addition to all the intensive care provided by the most recent guidelines, patients will undergo measurement of optic nerve sheath diameter through ultrasonography. At least, three measurements will be performed within the first 3 hours after admission, within the first 24-48 hours, and at each invasive intracranial pressure value greater than 18 cmH2O. Those patients with intracranial pressure values greater than 35 mmHg. At the first intracranial pressure measurement, patients with eyeball disease or trauma will be excluded. Measurements will be performed following the CLOSED bundle. Analysis of the results will include correlation between the invasive pressure values and the mean value of optic nerve sheath diameter measurements in the two projections (sagittal and transverse). In addition, the correlation of the absolute value of invasive pressure detected with the ratio of the optic nerve sheath diameter measurement to the eyeball diameter measured always ultrasound will be sought.
There have been limited studies on delirium in patients hospitalized with acute stroke. There have been no studies on the potential impact of overnight neuro-checks and resulting sleep disruption on delirium or other outcomes. Additional research is needed to determine if overnight checks are necessary or even harmful. We aim to find out if stopping overnight neuro checks may prevent delirium and benefit the patient.
The objective of this trial is to evaluate the effectiveness and safeness of intermittent Theta Burst Stimulation (iTBS) over the left Superior Temporal Gyrus (STG), guided by personalized Brain Functional Sector (pBFS) technology, on language function recovery in patients with post-ischemic stroke aphasia.
Therapeutic hypothermia (TH) in stroke has demonstrated robust neuroprotection in animals especially after ischemia-reperfusion injury, but its safety and efficacy remain controversial. The investigators propose this trial to study the clinical and radiological effects of therapeutic hypothermia in acute ischemic stroke patients treated with intravascular thrombectomy (IVT).
About half of the patients with acute ischemic stroke treated with endovascular thrombectomy (EVT) remain dependent on the help of others or die in the first 90 days. We hypothesize that treatment with ghrelin, started in the first six hours after stroke onset, improves early recovery and long-term functional outcome in these patients. Ghrelin is a naturally occurring hormone and mildly excitatory neurotransmitter also known as the 'hunger hormone.' Treatment with acylated ghrelin consistently improved functional and histological recovery in in vitro and in vivo models of ischemic stroke.
Large cerebral vessel occlusion is a common phenomenon in the general population and accounts for 13-35% of ischemic strokes. Chronic stenosis in the large cerebral arteries is associated with cerebral hypoperfusion, cognitive decline and an increased risk of stroke or recurrent stroke, respectively. Even with upgrowth of surgical or endovascular interventions, mechanical reopening of the occluded vessels is often not possible. Alternative treatment opportunities include minimal-to-moderate blood pressure elevation (typically by ceasing antihypertensives) waiting for collateral circulation to develop spontaneously. Another conservative approach to increase cerebral perfusion is aerobic exercising. Physical activity has shown to lead to cerebral blood flow increase, especially in activated brain areas of healthy human and rat models. However, it is remains unknown, how physiological adaptation to physical activity expresses in persons after stroke due to large vessel occlusion. Herein, it is hypothesized that aerobic exercise facilitates the development of an extensive and functional vascular collateral network in persons with ischemic stroke and perfusion compromise.
Emergent reperfusion is the main goal for acute ischemic stroke therapy (AIS). Endovascular therapy (EVT) is recommended within 6 hrs of stroke onset, and up to 24 hrs following perfusion imaging criteria. Despite the major benefit associated with MT, more than 50% of the patients remain disabled at 3 months. Reperfusion rates after MT are critical to determine functional outcome. However, complete reperfusion is obtained in only 50 % of the patients, due to, at least in part, erratic emboli and/or no-reflow processes. The aim of this study is to evaluate the efficacy of glenzocimab in addition to EVT and compared to EVT plus placebo, whether or not associated with ntravenous thrombolysis (IVT), on functional outcome at day 90.
Stroke leads to lasting problems in using the upper limb (UL) for everyday life activities. While rehabilitation programs depend on motor learning, UL recovery is less than ideal. Implicit learning is thought to lead to better outcomes than explicit learning. Cognitive factors (e.g., memory, attention, perception), essential to implicit motor learning, are often impaired in people with stroke. The objective of this study is to investigate the role of cognitive deficits on implicit motor learning in people with stroke. The investigators hypothesize that 1) subjects with stroke will achieve better motor learning when training with additional intrinsic feedback compared to those who train without additional intrinsic feedback, and 2) individuals with stroke who have cognitive deficits will have impairments in their ability to use feedback to learn a motor skill compared to individuals with stroke who do not have cognitive deficits. A recent feedback modality, called error augmentation (EA), can be used to enhance motor learning by providing subjects with magnified motor errors that the nervous system can use to adapt performance. The investigators will use a custom-made training program that includes EA feedback in a virtual reality (VR) environment in which the range of the UL movement is related to the patient's specific deficit in the production of active elbow extension. An avatar depiction of the arm will include a 15 deg elbow flexion error to encourage subjects to increase elbow extension beyond the current limitations. Thus, the subject will receive feedback that the elbow has extended less than it actually has and will compensate by extending the elbow further. Subjects will train for 30 minutes with the EA program 3 times a week for 9 weeks. Kinematic and clinical measures will be recorded before, after 3 weeks, after 6 weeks, and after 9 weeks. Four weeks after the end of training, there will be a follow-up evaluation. Imaging scans will be done to determine lesion size and extent, and descending tract integrity with diffusion tensor imaging (DTI). This study will identify if subjects with cognitive deficits benefit from individualized training programs using enhanced intrinsic feedback. The development of treatments based on mechanisms of motor learning can move rehabilitation therapy in a promising direction by allowing therapists to design more effective interventions for people with problems using their upper limb following a stroke.
Several studies suggest that advanced multi-modal imaging with CTP should be used to screen late time window stroke patients for thrombectomy. However, NCCT is more accessible when comparing with CTP. It is unclear whether the NCCT-based ASPECTS can be used as an imaging criterion to screen patients for thrombectomy. The newly published MR CLEAN-LATE and TENSION trials used NCCT or CTA, but still relied on ASPECTS scores to evaluate and select patients for endovascular therapy. However, different trials have different time windows. The aim of this trial was to assess the clinical outcomes of stroke patients with anterior large vessel occlusion who selected by simple imaging (NCCT) comparing via standard imaging screening strategy (CTP/MRI). The hypothesis is that simple imaging is non-inferior to standard imaging selection strategy in terms of achieving favorable outcomes.
This is a multi-center, randomized, double-blind, placebo-controlled, dose-response study of MLC1501 in patients with stroke. Eligible participants will be randomized in a 1:1:1 ratio to orally receive MLC1501 low-dose twice a day, MLC1501 high-dose twice a day, or matching placebo for 24 weeks.