View clinical trials related to Stroke.
Filter by:An Exploratory Interventional study to assess the effects of cranioplasty on brain network connectivity, neuropsychological and motor functioning in patients with severe acquired brain injury with pre-, post-cranioplasty and 6 months follow-up assessments.
Stroke is a global health problem and a leading cause of disability. Limitation of upper limb function occurs in 55 -75% of patients after stroke. In recent years, non-invasive brain stimulation techniques, such as repetitive transcranial magnetic stimulation (rTMS), have been shown that can promote functional recovery in stroke patients, and multiple studies have reported that low-frequency rTMS stimulation on the motor areas of the unaffected hemispheres of stroke patients can significantly improve motor function of the affected upper limb. The standard procedure for TMS to determine the primary motor area is to measure hotspot, which is used as a common target for movement disorders such as hemiplegia after stroke. In the 1990s, the hands-on task activation point determined by functional magnetic resonance imaging(fMRI) and positron emission computed tomography(PET) studies was located at "Hand Knob" in the primary motor area. The study found that although the hands-on task activation point was closer to hotspot, it was significantly different from hotspot. The hands-on task activation point had stronger functional connection with the whole brain, especially the motor cognition-related brain area. Therefore, this study aims to compare the efficacy of rTMS stimulation on individual rTMS targets(task fMRI activation point) with traditional hotspot in patients with post-stroke hemiplegia. The regulation effect of rTMS was evaluated by using local brain function indicators and functional connections, and the longitudinal change pattern of brain function before and after treatment was observed to explore the therapeutic targets of rTMS for motor dysfunction after stroke and the mechanism of brain functional plasticity.
This study is a multicentre, randomized, double-blind, placebo-controlled, investigator-sponsored study that aims to investigate the efficacy of colchicine in preventing recurrent stroke in the patients with acute minor-to-moderate ischemic stroke or TIA and a hsCRP level of ≥2mg/L.
Endovascular thrombectomy (EVT) enormously improves the prognosis of patients with large vessel occlusion (LVO) stroke, but its effect is highly time-dependent. Direct presentation of patients with an LVO stroke to an EVT-capable hospital reduces onset-to-treatment time by 40-115 minutes and thereby improves clinical outcome. Electroencephalography (EEG) may be a suitable prehospital stroke triage instrument for identifying LVO stroke, as differences have been found between EEG recordings of patients with an LVO stroke and those of suspected acute ischemic stroke patients with a smaller or no vessel occlusion. The investigators expect EEG can be performed in less than five minutes in the prehospital setting using a dry electrode EEG cap. An automatic LVO-detection algorithm will be the key to reliable, simple and fast interpretation of EEG recordings by ambulance paramedics. The primary objective of this study is to develop one or more novel AI-based algorithms (the AI-STROKE algorithms) with optimal diagnostic accuracy for identification of LVO stroke in patients with a suspected acute ischemic stroke in the prehospital setting, based on ambulant EEG data.
The objective of this study is to demonstrate the safety and efficacy of the Penumbra System including Thunderbolt Aspiration Tubing (Thunderbolt) in a population presenting with acute ischemic stroke (AIS) secondary to intracranial large vessel occlusion (LVO) who are eligible for mechanical thrombectomy.
To compare the effects of core strengthening and PNF on standing balance and plantar pressure in chronic stroke patients
Stroke survivors experience motor deficits, weak voluntary muscle activations, and low weight-bearing capacity that impair ambulation. Restoring motor function is a priority for people post-stroke, whose gait patterns are slow, and metabolically inefficient. The role of the ankle is crucial for locomotion because it stores mechanical energy throughout the stance phase, leading to a large activation of plantarflexor muscles during push-off for propulsion. After a stroke, paretic plantarflexors undergo changes in their mechanics and activation patterns that yield diminished ankle power, propulsion, and gait speed. Recovery of lost plantarflexor function can increase propulsion and mitigate unnatural gait compensations that occur during hemiparetic walking. In the stance phase, dorsiflexion is imposed at the ankle and the plantarflexors are loaded, which results in excitation of group Ia and II afferents, and group Ib afferents. Load sensing Ib afferents are active in mid-late stance, and through spinal excitatory pathways, reinforces the activation of plantarflexors and propulsive force generation at the ankle. Targeting the excitability of the load sensitive Ib excitatory pathway, propulsive soleus activity and resulting force generation (and thereby gait speed) can be improved after stroke. The long-term research goal is to develop a novel hybrid gait paradigm integrating operant conditioning and powered wearable devices to advance neuro-behavioral training and enhance locomotor ability after stroke. The overall objectives are to 1) modulate the soleus muscle loading response within the stance phase, and 2) develop a dynamic protocol to operantly condition the soleus response in stroke survivors. The central hypothesis is that enhancing the soleus loading response in mid-late stance phase through operant up-conditioning can increase plantarflexor power and forward propulsion after stroke. In working towards attaining the research objective and testing the central hypothesis, the objective of this pilot study is to modulate the soleus loading response in the stance phase during treadmill walking. The specific aims in this study are to 1) apply ankle perturbations in mid-late stance phase combining a control algorithm and a powered device to characterize the changes in soleus EMG between perturbed and unperturbed (i.e., when no perturbations are applied) step cycles in 15 able-bodied individuals; and 2) determine the feasibility of the wearable ankle device and its algorithm in 5 participants with hemiparesis and gait deficits due to a stroke. The testing of the device and its algorithm will provide foundational evidence to adjust the soleus stimuli continuously and reliably, and develop the new walking operant conditioning protocol for stroke survivors. An expected outcome in this pilot is to lay the groundwork to develop the soleus up-conditioning protocol as a potential strategy to improve paretic leg function. If successfully developed, this new protocol proposed in a subsequent study will be the first neurobehavioral training method that targets spinal load-sensitive pathways to improve ankle plantarflexor power and forward propulsion after stroke.
The overall goal of this feasibility study is to establish a standard of care stroke prevention program for children with sickle cell anemia in a community hospital by task shifting stroke detection and transcranial Doppler ultrasound screening to nurses. In Nigeria, approximately 150,000 children with sickle cell anemia (SCA) are born annually, accounting for more than half of the total births with SCA worldwide. In comparison, only 1,700 children with SCA are born in the United States annually. An estimated 11% of unscreened and untreated children at increase of strokes with SCA will have at least one stroke by 17 years of age. In high-income countries, evidence-based practices (EBP) for primary stroke prevention in children with SCA involves screening for abnormal transcranial Doppler ultrasound (TCD) velocity (>200cm/s) coupled with regular blood transfusion therapy for at least one year followed by treatment with hydroxyurea is considered standard care. This strategy decreases the risk of stroke by 92%. Due to safety and availability, regular blood transfusion is not a viable option for primary stroke prevention in most low-income settings, including Nigeria, where ~50% of the 300,000 children with SCA are born. Among each birth cohort, 15,000 children will have stroke annually in Nigeria. The American Society of Hematology (ASH) Central Nervous System Guidelines recommends moderate dose hydroxyurea (20mg/kg) to children with SCA with abnormal TCD measurements, living in resource-constrained settings where regular blood transfusions are not readily available. Our team has demonstrated in a previous trial the feasibility of primary stroke prevention with hydroxyurea in Kano, Nigeria. In 2016, as part of capacity building objective of Stroke Prevention Trial in Nigeria (1R01NS094041-SPRING) at Barau Dikko Teaching Hospital in Kaduna, TCD screening was adopted as standard of care. Before the trial, no TCD screening was done at our trial site in Kaduna. Now, as standard care, physicians at the teaching hospital do TCD screening, however, only 5.4% (1,101/20,040) of the eligible children with SCA living in Kaduna, Nigeria were reached. Clearly, for there to be an appreciable impact on decreasing the stroke rates in children with SCA living in Nigeria and elsewhere, applying the ASH guidelines and a better implementation strategy to increase the TCD reach (proportion of children eligible for TCD screening that are screened) is necessary. Therefore, objective of this physician-mentored application is to conduct an Effectiveness-Implementation Feasibility Trial is to test the test the hypothesis that the task-shifted site for primary stroke prevention team in a community hospital will have a non-inferior effectiveness in identifying children with abnormal TCD measurements when compared to primary stroke prevention team in a teaching hospital in Kaduna, Nigeria. the investigators will conduct i) a needs assessment at the community hospital to identify barriers and facilitators to the intervention, ii) Build capacity for stroke detection and TCD screening and iii) Compare the effectiveness of a physician-based stroke prevention program in a teaching hospital to a task-shifted stroke prevention in a community hospital.
The primary hypothesis being tested in this trial is that ischemic stroke patients in posterior circulation at 4.5 - 24 hours post onset of stroke will have improved clinical outcomes when given intravenous tissue plasminogen activator (tPA) compared to standard care.
A Taiwanese study pointed out that stroke patients who have language barriers, dysphagia, and aspiration pneumonia are more likely to suffer from prolonged hospitalization. Improvements in dysphagia and subsequent complications in patients should be effective in reducing hospital stays and improving the quality of long-term care. In view of clinical medical needs and policy trends, this study aims to explore the efficacy of using traditional Chinese medicine to treat cerebral apoplexy sequelae in Taiwan. It is expected that through (1) exploration of real-world data analysis, combined with the advantages of Taiwan's biomedical database, data exploration will be carried out to provide big data (2) Multi-center prospective randomized clinical trials, providing clinical evidence of the highest level of evidence in empirical medicine.