Active clinical trials for "Ischemic Stroke"

This observational study as an objective of characterizing the population of patients treated within the neurovascular unit of the Pierre Wertheimer hospital (Hospices Civils de Lyon) in order to determine their phenotype (age, sex, risk factors, etc.) and its evolution over time. It also aims to assess the management of ischemic stroke (IS) in the neurovascular unit of Pierre Wertheimer Hospital. We will assess in particular the pre-hospital and hospital care times, the type of medical care (thrombolysis and / or thrombectomy) as well as the efficiency of this care (effective recanalization, outcome of patient, etc.).

This is a prospective multicenter, single-arm objective performance criteria trial to assess the efficacy and safety of the the thrombus aspiration catheter.

The regional health authorities of South-East Norway has commissioned Sørlandet Hospital (SSHF), Norway to establish mechanical thrombectomy in large-vessel occlusion stroke. SSHF is a limited volume stroke center, and introduction of thrombectomy may impose quality challenges. Therefore the implementation will be guided by a simulation based quality assurance program. In this study, we will monitor timelines, technical and clinical outcomes, including adverse events.

The aim of this study is to analyze the relationship between the blood biomarker GDF-15 and heart damage after stroke. It is being conducted in France, in the Neurology Department of the Dijon University Hospital (Burgundy). The research is interventional because a biological blood test will be performed, as well as a heart rhythm recording and several cardiac echograms during the hospitalization of the participants and during the follow-up consultation scheduled 4 to 6 months after the stroke. A total of 130 stroke patients will participate in this study. Participation includes 4 visits: Inclusion visit (within 24 hours of the first stroke symptoms) visit 1 (within 24 to 72 hours of stroke) visit 2 (within 48 hours of visit 1) Visit 3 (approximately 4-6 months post-stroke)

Our main hypothesis is that acute EVT associated with best medical treatment is superior to best medical treatment alone, for improving clinical outcomes at 90 days, in patient with mild or severe AIS and diffusion-perfusion or clinical-imaging mismatch, secondary to CICAO.

To observe the safety and efficacy of intensive drug therapy for ischemic stroke patients.Patients with acute stroke caused by intracranial arterial stenosis (stenosis rate ≥70%) were enrolled and accept dual antiplatelet therapy (DAPT) (aspirin 100 mg/d and clopidogrel 75 mg/d for 90 days, followed by aspirin 100 mg/d for long term) under the guidance of platelet function analysis (Verifynow) combined with the intensive statin therapy (40 mg/d for 14 days, followed by 20 mg/d for long term).

This study aims to assess the incidence of atrial fibrillation (AF), documented using data recorded by an implantable Holter monitoring device (Reveal Linq, Medtronic) within 2 years after percutaneous closure of patent foramen ovale for cryptogenic stroke.

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.

This is a multicenter study that will be conducted at approximately 20 centers. BQ 2.0 is a wearable medical device that produces and delivers non-invasive, extremely-low-intensity and low-frequency, frequency-tuned electromagnetic fields in order to stimulate neuronal networks with the aim of reducing disability and promoting neurorecovery. In this study, BQ 2.0 is intended to reduce disability in adult patients with subacute ischemic stroke, with a moderate to severe disability which includes an upper extremity motor impairment. BQ 2.0 will be used for 9 weeks in conjunction with physical and occupational therapy (PT/OT) and periodic supervision (either remote or in person) of a trained site study team member. Treatments may be administered in multiple settings (e.g. acute care hospital (ACH) or inpatient rehabilitation facilities (IRF), Skilled Nursing Facility (SNF), home or other outpatient setup). The study will enroll up to 150 adult subjects who will be randomly assigned (1:1 allocation ratio) to either active or sham study intervention using BQ 2.0.

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.