View clinical trials related to Stroke.
Filter by:Cerebral microbleed (CMB) refers to small, round dark-signal lesions detected by T2*-weighted or gradient-echo (GRE) magnetic resonance imaging (MRI) ..CMBs were introduced to stroke physicians in the late 1990s and early 2000s after development of MRI techniques sensitive to paramagnetic effects The clinical significance of CMBs has been actively investigated, especially in the stroke field and more recently in studies on cognitive impairment, vascular dementia and later developement of cerebral hge ..Histological investigation has shown that CMBs are tiny foci containing hemosiderin-laden macrophages and abnormal microvessels . Clinical cases with frank symptoms caused by CMBs are uncommon, Because CMBs are manifestations of focal extravascular leakage of blood components, however, investigators have suggested that accumulation of CMBs reflects a bleeding-prone status in individuals with an elevated risk of cerebral hemorrhage. Clinical studies have found strong associations between CMBs and chronic hypertension and low cholesterol levels and between the proximity and volume of CMBs and those of subsequent intracerebral hemorrhage (ICH) . studies have found that CMBs are linked to subsequent hemorrhagic stroke in stroke survivors,and suggested that CMBs are related to antithrombotic-related hemorrhage.
Stroke is a devastating disease that affects 15 million patients worldwide each year, resulting in death in about one-third of patients and severe disability in two-thirds of the survivors. Ischemic stroke in young adults is often thought to be related to rare risk factors and etiological features that are very different from the 'traditional' vascular risk factors and etiology seen in older stroke patients. However, the increase in stroke incidence in young adults has been found to be associated with a rising prevalence of some important traditional vascular risk factors, including hypertension, hypercholesterolemia, diabetes mellitus and obesity, in this age group. Risk factors Modifiable risk factors are the same for both younger and older age groups. However, the prevalence of these risk factors is not the same in these two age groups. Hypertension, heart disease (including atrial fibrillation), and diabetes mellitus are the most common risk factors among the elderly A considerable minority of ischemic stroke cases remains etiologic-ally undefined However, there is still scant information on the role of risk factors and the clinical course in etiologic stroke sub-types. Although the risk factors of ischemic strokes are well defined, there is slight information about their relations with the etiologies of ischemic strokes. This study will investigate the distribution of ischemic stroke risk factors and their connections to diverse etiologies of cerebrovascular attack (CVA) and specific ischemic regions of brain. Considering that the prevalence of stroke risk factors rises with aging, the incidence of stroke will increase in further decades as the populations get older. The mortality and morbidity of each stroke pattern is different. So realizing the relation between stroke risk factors and its patterns can show the burden of preventing and treating every risk factor on the outcome of stroke.
This is a non-blinded randomized study that will investigate whether the use of a novel, non-invasive perfusion enhancement system (The Guardian System) impacts motor recovery and hospital length of stay in acute ischemic stroke patients.
he purpose of this study is to determine the efficacy and safety of remote ischemic conditioning for acute ischemic stroke.
The purpose of the study is to induce plasticity in corticospinal-motoneuronal synapses serving an intrinsic hand muscle of the hemiparetic limb in humans with stroke. Neurologically-intact controls are included to verify that an effect was present in absence of stroke. Outcome measures in controls also provide a reference point that help us to understand the size of the effect and mechanisms mediating the effect in the neurologically-intact system.
Stroke affects over 125,000 people each year in the UK and leaves at least 50% disabled. After a first stroke, there is a significant risk of recurrence (around 5-10% over the first year). While there are benefits from addressing general risk factors such as exercise, weight and smoking, selecting the best treatments for preventing a further stroke depends on understanding the underlying mechanism. Most strokes results from a blood clot causing a blockage in a blood vessel in the brain ("ischaemic" strokes, about 85% of cases). The clot may originate in the heart, the major blood vessels supplying the head, or result from disease of the small blood vessels in the brain itself (around 25% of cases each), and in around 25% of people a cause cannot be determined (sometimes because more than one exists). Different treatments are given depending on cause (for example, anticoagulant medication for clots from the heart, surgery for some arising from large arteries in the neck). Current investigations involve multiple tests spread across different hospital departments, and commonly take several weeks to be completed. This may contribute to a high rate of strokes of uncertain cause, and may delay the start of the best treatment. This trial will investigate the value of a single comprehensive scan to look at the heart and major blood vessels (using CT scanning) in a pilot study, comparing the classification of causes of stroke and the time to starting treatments with routine care, in a randomised study of patients with recent stroke or transient ischaemic attack (TIA, a short-lived stroke episode).
Stroke can be ischemic, hemorrhagic, or both. Early recognition and treatment of pediatric stroke are critical in optimizing long-term functional outcomes, reducing morbidity and mortality, and preventing recurrent stroke. Neuroimaging plays a vital role in achieving this goal. Neuroimaging is usually the first step in diagnosis, helping discriminate between ischemic/hemorrhagic strokes and also in the identification of underlying potential causes. Multiparametric magnetic resonance imaging (MRI) plays a crucial role in assessing pediatric cerebral stroke including diffusion-weighted imaging (DWI), susceptibility weighted imaging (SWI) and magnetic resonance angiography (MRA).
Predictive factors of outcome of mechanical thrombectomy after acute ischemic stroke
The anti-factor Xa (anti-Xa) assay is a functional assay that facilitates the measurement of antithrombin (AT)-catalyzed inhibition of factor Xa by unfractionated heparin (UFH) and direct inhibition of factor Xa by low-molecular-weight heparin (LMWH). As a result, Anti-factor Xa level reflect the in situ pharmacological activity of LMWH. 0.2 to 0.5 units/ml has been considered to be the desired level for prevention of VTE. Although this method was available since the 1970s, their cost was viewed to prohibit their broad use until recently. Previous studies determined the safety and effectiveness of fixed dose prophylactic regiments via clinical outcomes. This strategy has several shortcomings. The current study was there for devised to examine in vivo activity of LMWH in patients receiving a fixed dose prophylactic regimen, in order to assess the effectiveness of this method.
Atrial fibrillation (AF) is the most frequently encountered cardiac arrhythmia. Emerging data suggests that common genetic variants are associated with the development of AF. The main feature of the structural remodelling in AF is atrial fibrosis and is considered the substrate for AF perpetuation. Genome-wide association studies suggest that AF-susceptibility variants may modulate atrial fibrosis. However, the association between atrial fibrosis and genetic polymorphisms in humans has not yet been specifically investigated. In this study, we plan to investigate the relationship between genetic polymorphisms, atrial fibrosis and other components of thrombogenic substrate in patients with non-valvular AF. Primary objectives of this study are to assess associations between (i) polymorphic genetic variants and atrial fibrosis (detected by magnetic resonance imaging), (ii) polymorphic genetic variants and components of thrombogenic substrate (inflammation, endothelial function, prothrombotic state, atrial functions).