View clinical trials related to Stroke.
Filter by:Stroke is a strong risk factor for dementia, with up to 80% of individuals having lower cognitive function 5 years after a stroke event. However, having a stroke does not need to result in declining cognition if effective strategies to reduce the risk of post stroke dementia are identified. Diets containing nuts can reduce the risk of both dementia and stroke but have not been tested in stroke survivors. Therefore, this pilot study aims to determine whether eating nuts regularly reduces post-stroke cognitive decline and dementia. The NUT-me pilot study will supplement the diet of stroke survivors with a mix of nuts containing walnuts, hazelnuts, almonds and Brazil nuts for 3 months and assess the effects on cognition and health markers. The researchers predict that regular nut consumption will contribute to preserving post-stroke cognitive function in comparison to patients who do not consume nuts. The results of this novel pilot study will be used to guide a larger trial and provide a simple dietary strategy that stroke survivors can adopt to reduce post-stroke cognitive decline.
This project will investigate effects of a novel theory-driven 6-week virtual Personal Resource Building and Inclusive Volunteering Intervention (PVI) on young stroke survivors' work ability, self-efficacy and psychosocial outcomes. It is hypothesised that participants in the intervention group, compared with the control group, will demonstrate the outcomes below at immediately and 3 months post-intervention with respect to baseline: 1) Significant improvement in work ability (primary outcome), 2) Significant improvements in self-efficacy, health-related quality of life (HRQoL), emotional well-being and social skills (secondary outcomes). Eligible participants will be randomly assigned to receive usual care or PVI with usual care and the control group participants will receive usual stroke care services.
1. To evaluate whether stent implantation on the ipsilateral extracranial segment, after intracranial thrombectomy successful recanalization compared with balloon angioplasty (eTICI≥2b_50) for acute anterior circulation tandem lesions within 24h of onset, can improve neurological functional outcomes(mRS≤2). 2. To evaluate whether stent implantation on the ipsilateral extracranial segment, after intracranial thrombectomy successful recanalization compared with balloon angioplasty (eTICI≥2b_50) for acute anterior circulation tandem lesions within 24h of onset, can increase the risk of symptomatic intracranial hemorrhage.
This project evaluates the feasibility of using custom wearable technology and associated procedures to increase activity of the more-involved upper extremity during the earliest stages of recovery from stroke by increasing the amount of therapeutic exercise during idle-time. The proposed research is relevant to public health because it takes steps to mitigate a significant problem in physical rehabilitation using low-cost technology to motivate and monitor idle-time exercise without adding significantly to clinician workloads. The project aligns with the NICHD / NCMRR Research Plan on Rehabilitation by exploiting a mobile health (mHealth) and sensor-based approach to promote health and wellness through participant-engaged, data-driven, individualized care.
The goal of this clinical trial is to assess the initial safety and performance of the RapidPulseTM Aspiration System in patients experiencing acute ischemic stroke within 24 hours since the onset of stroke symptoms, or last known normal. Subject will undergo mechanical thrombectomy (a procedure to remove a clot in the brain which is preventing blood flow), with the RapidPulseTM Aspiration System. Participating in the trial is for 5-7 days or hospital discharge (whichever is earlier).
Based on previous studies, when medical digital twin-based convergence medical contents are applied to degenerative musculoskeletal and central nervous system diseases, it is possible to more accurately evaluate the subject's motor function and neurological function to predict the subject's disease. In order to create an effective ICT application protocol and clinically apply a treatment program that can improve the subject's kinematic function and neurological function, etc.
The purpose of this clinical research is to verify if the patients with chronic stroke can regain the ability of living independently after daily using Testa BioHealing® Biophoton Generators to increase the energy of the brain and other parts of the body. The main study questions are: - Can patients with chronic stroke regain life independence by normalizing Activities of Daily Living (ADL). - Can brain-injury and recovery status of the patients with chronic stroke be detected by using an EEG machine. Participants will sleep-rest on a hotel bed energized by Tesla BioHealing Biophoton Generators, and clinical study staff will observe the participant's activities of daily living, as compared to those who will sleep in the hotel room equipped with placebo devices.
The goal of this feasibility study is to ascertain if this follow-up programme of care can feasibly be implemented within a healthcare system with people after minor stroke. The main feasibility questions are: i) To establish recruitment uptake ii) To establish treatment adherence iii) To determine participant retention. Participants will be randomly allocated to the intervention and control group. Those in the intervention group will receive a follow-up telephone call at two weeks after discharge and a second follow-up appointment at six weeks after discharge. Outcome measures will be taken at twelve weeks after discharge.
Intracranial atherosclerotic disease is the most common cause of ischemic stroke in Asia, also in China. Currently, despite vascular recanalization therapy, statins are one of the main drug choices for treating atherosclerotic plaque. High resolution magnetic resonance imaging (HRMRI) can accurately assess the status of intracranial and extracranial arterial plaque, and has high consistency with histopathology. Thus, HRMRI technology has been widely used to monitor the efficacy of drug treatment for atherosclerotic plaque in clinical trials or practice. As a non-invasive technique, HRMRI make it possible to assess the morphologic characteristics of vascular wall and plaque composition of intracranial artery in vivo. It can quantitative analysis including components such as lipid-rich necrotic core, fiber cap thickness, intra-plaque hemorrhage, calcification, etc. Therefore, it is crucial for evaluating the etiology of ischemic stroke and developing secondary prevention strategies. At present, there is a lack of large-scale and prospective study to evaluate the etiology of ischemic stroke including cryptogenic stroke based on HRMRI. In this context, this study aims to establish a multi center HRMRI database of intracranial arteries among Chinese patients with ischemic stroke.
The CHOICE study suggested that the use of adjunct intra-arterial alteplase after successful endovascular reperfusion in large vessel occlusion acute ischemic strokes may result in a greater likelihood of excellent neurological outcome at 90 days. However, CHOICE was a phase-2 trial and almost exclusively enrolled anterior circulation occlusions. Therefore, data on the safety and efficacy of post-endovascular reperfusion IAT in posterior circulation stroke is lacking. In general, anterior circulation strokes are associated with a higher risk of ICH than posterior circulation strokes. Therefore, we believe it might be safer to perform post-endovascular reperfusion IAT posterior circulation stroke. Also, there are more perforator artery in the posterior circulation, IAT would be more likely to show its benefit. Therefore, we would like to explore IA rt-PA for posterior circulation stroke after successful MT in our RCT. In this study, one interim analysis will be performed when the enrollment volume reaches 50% of the total sample size (188 cases). DSMB will determine the premature termination or continuity of research.