View clinical trials related to Stroke.
Filter by:Atrial fibrillation (AF) is one of the most common cardiac arrhythmias and cardioembolic stroke due to AF is its major complication. Direct oral anticoagulants (DOAC) reduce the risk of cardioembolism in patients with AF. Despite DOAC therapy, there is a significant residual stroke risk of 1-2%/year. Recent data from the Swiss Stroke Registry found 38% of patients with AF and ischemic stroke were on prior anticoagulant therapy (approximately 400 patients per year in Switzerland). The investigators found in a prior observational study, that patients with AF who have ischemic stroke despite anticoagulation are at increased risk of having another ischemic stroke (HR 1.6; 95% confidence interval, CI 1.1-2.1). Combining observational data from 11 international stroke centres, the investigators found that the majority of ischemic strokes despite anticoagulation in patients with AF is "breakthrough" cardioembolism (76% of patients) and only a minority of 24% is related to other causes unrelated to AF. Optimal secondary prevention strategy is unknown. The investigators have conducted two independent observational studies including together >4000 patients but did not identify any strategy (e.g. switch to different DOAC, additional antiplatelet therapy) that seems superior. A recent randomized controlled trial on surgical occlusion of the left atrial appendage (LAAO) found that LAAO may provide additional protection from ischaemic stroke in addition to oral anticoagulation. Triggered by this finding, the investigators performed a matched retrospective observational study and found that patients with AF and stroke despite anticoagulation who received a combined mechanical-pharmacological therapy (DOAC therapy + LAAO) had lower rates of adverse outcomes compared to those with DOAC therapy alone. Therefore, the investigators hypothesize that in patients with AF and ischemic stroke despite anticoagulant therapy, LAAO in addition to anticoagulation with a DOAC is superior to DOAC therapy alone. The investigators propose an international, multi-center randomized controlled two-arm trial to assess the effect of LAAO in patients with AF suffering from strokes despite anticoagulation therapy and without competing stroke etiology. The investigators will use the PROBE design with blinded endpoint assessment. The investigators will enrol patients with non-valvular AF and a recent ischemic stroke despite anticoagulation therapy at stroke onset. Patients will be randomized 1:1 to receive LAAO + DOAC therapy (experimental arm) or DOAC therapy alone (standard treatment arm). The primary endpoint is the first occurrence of a composite outcome of recurrent ischemic stroke, systemic embolism and cardiovascular death during follow-up. Secondary outcomes include individual components of the primary composite outcome, safety outcomes (i.e. symptomatic intracranial haemorrhage, major extracranial bleeding, serious device- or procedure-related complication), functional outcome (modified Rankin Scale) and patient-oriented outcomes. The minimum follow-up is 6 months and all patients will receive follow-ups every 6 months until end of study, the maximal follow-up will be 48 months. Based on prior observational data from the investigators' group and others (5 observational studies, >5000 patients), the investigators estimate the proportion of patients with the primary outcome in the standard treatment arm to be 18% in the first year and 9% in the second year (=cumulative 27% after 2 years). A relative risk reduction of 40% at 2 years would be clinically relevant. Based on these assumptions and a log-rank test, the investigators would need 98 events for a power of 80% at an alpha-level of 5%. Assuming a recruitment rate of 52, 118, 156 and 156 patients in years 1 to 4, an additional 6 months of follow-up (mean follow-up time of 2.1 years) and a uniform drop-out rate of 7.5% per year, 482 patients would need to be enrolled. How to treat patients with an ischemic stroke despite anticoagulation is a major yet unresolved clinical dilemma. This trial has the potential to answer the question whether LAAO plus DOAC therapy is superior to current standard of care for patients with AF who have ischemic stroke despite anticoagulation.
This study will develop a vibration rehabilitation system for the upper extremities and provide strong evidence-based information regarding the mechanism and rehabilitation of stroke patients through the application of vibration by comparing the benefits of its clinical outcome with those of traditional rehabilitation methods. Based on these findings, we could create precision vibration exercise programs to improve the health of stroke patients.
Abstract: Background: The leftover movement disorder of stroke patients is one of the main causes of disability, and there is still no specific solution. Studies have shown that the improvement of movement disorder symptoms in patients receiving DBS is a potential therapy. treatment approach. However, at present, there are few large-sample studies in this area at home and abroad, which cannot well reveal its actual therapeutic effect and safety, and do not fully understand its potential neural mechanisms, so it is impossible to form a unified and standardized treatment standard, which limits its wide application in clinical practice. Objectives: This study aimed to determine the efficacy and safety of hemiplegia recovery after deep brain electrical stimulation in stroke patients with hemiplegia. Methods/Design: This was a double-blind randomized cross-over controlled pilot study in which 62 patients were assigned to receive deep brain stimulation (DBS) and randomized into DBS and control groups using a randomized controlled study approach, DBS group One month after the operation, electrical stimulation was started, and the control group was given sham stimulation treatment. After 3 and 6 months of follow-up, all the machines were turned off. After a 2-week washout period, the control group was turned on, but the DBS group was given sham stimulation. After the 9th and 12th month of follow-up, all patients were given start-up treatment, and neuroimaging and various post-stroke motor-related scores were performed for data collection and analysis. Discussion: The investigators propose a research design and rationale to explore the effectiveness and safety of DBS in patients with post-stroke hemiplegia, and provide evidence and reference for DBS in the treatment of post-stroke dyskinesia. Study limitations are related to the small sample size and short study time period.
This early phase trial will address the following key objectives: 1. Completion of initial safety and tolerability testing of our viable prototype for remote ischemic conditioning (RIC) with patients with (a) CSVD and (b) acute ischemic stroke. 2. Usability testing of the prototype with patients and healthcare professionals, with further optimization. Approximately 24 patients with CSVD will be recruited to use the RIC device daily for 60 days and provide feedback. They will be randomized in a 1:1 ratio to either true RIC therapy or sham control for the first 30 days, after which the sham group will cross over to receive true RIC for the remaining 30 days. Feasibility testing will be done in the mobile stroke unit on up to 10 patients with acute ischemic stroke. An additional 10 stroke physicians and paramedics will conduct device usability testing and provide feedback.
The goal of this study is to define the efficacy of fully remote home-based BCI therapy in chronic hemiparetic subcortical stroke patients. A randomized controlled study using the integrated remote BCI system will be tested against standard exercise therapy to determine the efficacy of motor improvement in chronic stroke patients with an upper extremity hemiparesis. Specifically, the integrated BCI system will include 1) the remote screening and motor assessment system for the upper extremity and 2) the BCI-controlled robotic hand exoskeleton (i.e. IpsiHand).
The overall objective of the Stroke Minimization through Additive Anti-atherosclerotic Agents in Routine Treatment II (SMAART-II) is to deploy a hybrid study design to firstly, demonstrate the efficacy of a polypill (Polycap ®) containing fixed doses of antihypertensives, a statin, and antiplatelet therapy taken as two capsules, once daily orally in reducing composite vascular risk over 24 months vs. usual care among 500 recent stroke patients encountered at 12 hospitals in Ghana. Secondly, SMAART II seeks to develop an implementation strategy for routine integration and policy adoption of this polypill for post-stroke cardiovascular risk reduction in an under-resourced system burdened by suboptimal care and outcomes.
Stroke is the leading cause of adult-onset disability, and affects 15,000 Veterans each year. Successful rehabilitation and recovery following a stroke requires therapy including repetitive task training. However, repetitive task training can be draining for both the clinician and the patient as it requires the participant to complete many repetitions of the same task and those repetitions can be difficult to accomplish with appropriate technique. Robot-mediated repetitive task training has the potential to facilitate the clinical delivery of proven rehabilitation programs to Veterans in need and recently a new exoskeleton has been developed, called Harmony, which can deliver bimanual 3D arm therapy. The investigators propose to develop and test two novel controllers', synergy avoidance and task assistance, that use promising neurological basis for training to facilitate repetitive task training while ensuring correct movement patterns in acute and sub-acute stage stroke patients. This has the potential to improve Veterans' activities of daily living and quality of life.
This is a prospective, single center, interventional clinical study containing two cohorts the treatment cohort and control cohort. A total of 13 subjects will be enrolled. Three (3) healthy volunteers will be enrolled in the control cohort and undergo imaging only. Ten (10) subjects who have recently experienced a mild to moderate acute ischemic stroke will receive treatment using the NeuroGlove.
The purpose of this study is to investigate the safety and feasibility of intra-arterial albumin infusion for patients with acute ischemic stroke after successful thrombectomy and to further explore the optimal dose of albumin through the implementation of a 3 + 3 dose-escalation design.
The major problems of people with chronic stroke include muscle weakness, sensory alteration, and inter-muscular coordination impairment. Inter-muscular coordination impairment caused altered muscle contraction sequences and weight-bearing asymmetry during functional activities. Sit-to-stand (STS) training is often used to improve functional activities among post-stroke subjects. However, the improvement may come from compensatory movements. Using compensatory movement may cause muscle weakness in the affected side and increase fall risk. This study will develop a novel STS training system with interactive visual and audio feedback emphasizing weight transferring and weight bearing. The present study aims to investigate the effects of sit-to-stand training with interactive visual and audio feedback on muscle contraction sequences and weight bearing symmetry in individuals with chronic stroke.