View clinical trials related to Stroke, Ischemic.
Filter by:A recent pilot study suggests intra-arterial tenecteplase (TNK) during the first pass of endovascular treatment (EVT) seems safe, may increase first-pass reperfusion and good outcome in acute ischemic stroke (AIS) patients with large vessel occlusion (LVO). The study aimed to determine the efficacy and safety of intra-arterial TNK administration during EVT in AIS-LVO patients.
Quantitative EEG (qEEG) has been used as an effective tool in the diagnosis and prognosis of brain-related diseases. In the literature, a variety of qEEG parameters have been proven informative in the prognosis of stroke. In addition, it has been demonstrated that changes in certain qEEG parameters during traditional/task-specific rehabilitation approaches are correlated with clinical outcomes of functional motor recovery. Repetitive transcranial magnetic stimulation (rTMS) has been proposed as a non-invasive and therapeutic treatment used to accelerate and enhance the recovery process of motor function in stroke patients. Many studies have reported that inhibiting contralesional rTMS may have positive effects in stroke patients with severe upper extremity motor impairment. In this context, the aim of the proposed study is to investigate whether there is a correlation between the change in qEEG parameters and the improvement of motor functions associated with rTMS treatment and to provide an electrophysiological prognostic biomarker of inhibiting contralesional rTMS for stroke patients.
This clinical trial aims to evaluate the effects of repetitive transcranial magnetic stimulation (rTMS) on upper extremity motor function in stroke patients. The main questions it seeks to answer are: 1. Whether repetitive transcranial magnetic stimulation (rTMS) has a positive effect on upper extremity motor function in stroke patients. 2. Which stimulation protocol (low frequency - LF or high-frequency - HF) has better outcomes for improving upper extremity motor function in stroke patients? Participants will receive 10 procedures of repetitive transcranial magnetic stimulation (rTMS) over two weeks. They will be randomly assigned into low-frequency, high-frequency rTMS groups or sham stimulation groups. Upper extremity motor function will be evaluated twice: before stimulation and 3-4 weeks after stimulation. Researchers will compare sham stimulation to see if it has the same or better outcomes for improving upper extremity motor function in stroke patients than real rTMS.
Annually 100,000 strokes occur, placing stroke as the largest cause of disability in the UK. 90% of strokes are preventable, leading to national focus on programmes including "The National Stroke Programme" to act on preventing, treating, and improving post-stroke care. Importantly, over 25% of ischaemic stroke sufferers have previously had a Transient Ischaemic Attack (TIA), which presents the biggest concern for TIA patients. There are no measures which reliably identify TIA patients most likely to suffer a stroke. Novel biomarkers for predicting stroke are key to addressing this problem. The PREDICT-EV study aims to screen 300 TIA patients and follow them over 12-months. The investigators will determine if a novel biomarker we've identified to increase thrombotic risk (endothelial derived extracellular vesicles) and the resulting increased prothrombin time is associated with patients at highest risk of stroke.
The aim of this study was to determine the diagnostic accuracy of MR-FFR to detect functionally significant ICAS comparing with pressure-wire-based FFR.
The goal of this observational study is to explore the ability of intravascular pressure gradients to identify hemodynamic disturbance in patients with intracranial atherosclerotic diseases (ICAS). The main questions that aim to answer are: - The correlation between intravascular pressure gradient and cerebral blood flow (CBF) - The threshold for intravascular pressure gradients to predict hemodynamic disturbance in ICAS Patients will undergo intravascular pressure measurement and arterial spin labeling (ASL) for CBF during pre- and post-operation respectively.
Consequences of stroke are manyfold but all of them are important factors on the long-term outcomes of rehabilitation, becoming an important health problem with requires health strategies with advanced age. High intensity interval training (HIIT) is an efficient training protocol used in cardiac rehabilitation programs, but owing to the inter-individual variability in physiological responses to training associated to cardiovascular diseases, the exercise dose received by each patient should be closely controlled and individualized to ensure the safety and efficiency of the exercise program. The heart rate variability (HRV) is actually being used for this purpose, as it is closely linked to de parasympathetic nervous system activation. In this way, higher scores in HRV are associated with a good cardiovascular adaptation. The objective of this protocol is to determine the effect of HIIT compared with HRV-guided training on cardiorespiratory fitness, heart rate variability, functional parameters, body composition, quality of life, inflammatory markers, cognitive function, and feasibility, safety and adherence in patients after stroke undertaking an 8-week cardiac rehabilitation program. This will be a cluster-randomized controlled protocol in which patients after stroke will be assigned to an HRV-based training group (HRV-G) or a HIIT-based training group (HIIT-G). HIIT-G will train according to a predefined training program. HRV-G training will depend on the patients' daily HRV. The peak oxygen uptake (VO2peak), endothelial and work parameters, the heart rate variability, the functional parameters, the relative weight and body fat distribution, the quality of life, the inflammatory markers, the cognitive function, and the exercise adherence, feasibility and safety will be considered as the outcomes. It is expected that this HRV-guided training protocol will improve functional performance in the patients after stroke, being more safe, feasible and generating more adherence than HIIT, providing a better strategy to optimize the cardiac rehabilitation interventions.
The recovery from a stroke is often incomplete. It is the leading cause of acquired permanent disability in the adult population. Persistent functional loss of the hand and arm contributes significantly to disability. However, the current standard of care to treat hand and arm movements are inadequate. There is an urgent need for innovative and effective therapies for recovery of the upper limb after stroke. Growing evidence shows that electrical spinal cord stimulation, combined with activity-dependent rehabilitation, enables voluntary movement of paralyzed muscles in some neurologic disorders, such as spinal cord injury. The investigators hypothesize that spinal networks that lost control after stroke can be activated by non-invasive electrical stimulation of the spinal cord to improve functional recovery. The aims of the study are: 1. to determine the improvements in hand and arm function that result from the combined application of non-invasive spinal stimulation and activity-based rehabilitation. Surface electrodes placed over the skin of the neck will be used for non-invasive electrical stimulation of the spinal cord. Functional task practice will be used for activity-dependent rehabilitation, 2. to evaluate long-lasting benefits to hand and arm function that persist beyond the period of spinal stimulation.
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.
As a major breakthrough of acute stroke treatment over the past decade, endovascular thrombectomy (EVT) drastically improved neurological recovery and survival in patients with large vessel occlusion (LVO) ischemic strokes in major clinical trials. Nevertheless, much remained uncertain about the implementation of scientific evidence of EVT into real-world benefits. For instance, healthcare policies that influence critical time-matrices, endovascular thrombectomy techniques that may enhance success rate or prevent complications, or advanced imaging techniques that allow precise prognosis or expansion of treatment populations, should be evaluated. On the other hand, capturing LVO patients who were not able to undergo EVT may reveal the gap between clinical trials and real-world practice in the Asia-Pacific. In this multicenter prospective collaboration across the Asian-Pacific, the investigators aim to evaluate the determinants of effective EVT in the real-world setting.