View clinical trials related to TIA.
Filter by:This is a descriptive study designed to evaluate the safety and feasibility of a precision medicine approach to antiplatelet selection for secondary stroke prevention.
Researchers are trying to determine if subjects with lack of access to healthy food and a long term health problem, are helped by a weekly box of healthy groceries and nutrition education.
The research project investigates the incidence of the hyperintense acute reperfusion marker (HARM) in patients with transient ischemic attack (TIA) or transient neurological attack (TNA). Initially, HARM was described after acute ischemic stroke and is caused by a blood-brain barrier disorder after recanalization of an acute vessel occlusion and consecutive reperfusion. These result in a contrast agent extravasation into the subarachnoid space, which can be easily detected on fluid attenuated inversion recovery (FLAIR) images. TIA is defined as a transient focal neurological deficit with a probably cerebrovascular cause. In contrast, TNA is defined as a transient non-focal neurological deficit with multiple causes, including cerebrovascular. The clinical diagnosis of TIA is often flawed and the delineation of TIA and TNA can be difficult. MRI is the most important diagnostic method for the detection or exclusion of cerebral ischemia in patients with TIA/TNA in daily clinical practice. However, on diffusion-weighted imaging (DWI) approximately two-thirds of TIA cases and only one-fifth of TNA cases demonstrate acute cerebral ischemia. Supplementary perfusion-weighted imaging (PWI) scans can only slightly increase this percentage. The well-known HARM could prove to be complementary to DWI and PWI and close or at least reduce the existing gap. In the case of TNA in particular, this could be of clinical relevance in order to avoid mistreatment or even dismissal without further clarification after supposedly inconspicuous imaging. Therefore, the aim of this study is to record the incidence of HARM in a statistically significant number of cases of patients with TIA and TNA and to investigate relationships with symptom duration and anatomical localization. In addition, the dynamics of contrast enhancement in the subarachnoid space in TIA and TNA cases with HARM will be analyzed in detail.
A clinical decision support rule/tool for classification of TIA/mimic that will enable rapid detection of ACVS in hyper-acute settings is being developed. Also under development is a multi-protein test using mass spectrometry (MS). This test will provide TIA results within an hour or two for a fraction of the price of neuroimaging. With guidance provided by this test at their disposal, physicians can inform patients whether they can go home safely or whether they need further testing. The right patients will receive the right treatment, reduce unwarranted imaging risks and costs, and reduce the burden of stroke. The Heart and Stroke Foundation will work to ensure that physicians, allied healthcare providers, the public and other stakeholders are aware of the outcomes and clinical impacts of this project. Further, work is being done to establish the mechanisms to develop a strong phenotype for TIA that includes medical imaging (MRI), cardiac monitoring, cognitive assessments, and surveillance of health outcomes for extended periods of time.
A multi-protein test using mass spectrometry (MS) for multiplexed protein quantitation is being developed. This test and the accompanying decision-aid software will provide Transient Ischemic Attack (TIA) results rapidly for a fraction of the price of neuroimaging. With guidance provided by this test, Emergency Department (ED) physicians can manage medical imaging questions such as the use of Computed Tomography Angiography (CTA) prior to ED discharge and appropriate (timely) referral to stroke clinics for consultation and follow-up care. The right patients will receive the right treatment, reduce unwarranted imaging risks and costs, and reduce the burden of stroke.
Background: Different studies with real-life data and randomized controlled trials have shown a detection rate of paroxysmal atrial fibrillation (AF) of 10-20% in patients with cryptogenic stroke using insertable continuous cardiac monitoring for 6 months. More studies are needed, however, to identify factors which can be used to select the patients where the possibility of detecting AF with prolonged rhythm monitoring is highest, to evaluate the best duration of rhythm monitoring, to determine the optimal deļ¬nition of short-term AF that warrants intervention and to evaluate whether intervention results in improved clinical outcomes. Methods: The NOR-FIB study is a multi-centre prospective observational trial, designed to evaluate detection of AF in cryptogenic stroke and transient ischemic attack (TIA). Patients admitted with cryptogenic stroke or TIA in stroke units in the Nordic countries, aged 18-80 years are included and have the Reveal LINQ® Insertable cardiac monitor system implanted for 12 months for the purpose of AF detection. Biomarkers that may identify patients, who could derive the most clinical benefit from the detection of AF by prolonged monitoring, are being studied. Conclusion: This NOR-FIB study will increase our knowledge regarding the occurrence of AF in patients with cryptogenic stroke and TIA that potentially can improve secondary prevention. The study will provide information on biomarkers that may be used to select cryptogenic TIA and stroke patients for long-term monitoring as well as information on the significance of short-term AF and optimal duration of cardiac rhythm monitoring.
The purpose of the study is to estimate the contemporary prevalence of cardiovascular diseases in the United Kingdom (UK) and to describe the incidence and prevalence of stroke, mini stroke (TIA), Heart Attack (MI), deaths and interventions repairs for carotids and occlusive arterial disease in a large population. This study will also allow us to obtain reliable information on the age- and sex-specific relevance of tobacco and alcohol consumption, obesity, diabetes and blood pressure as risk factors for different cardiovascular diseases. By following up a large group of participants for 5 years, we will be able to estimate the annual risk of stroke and other CVD events associated with asymptomatic carotid artery stenosis and atrial fibrillation.
Stroke is a devastating disease. The acute mortality in Sweden is 20 % and 25 % of all patients relapse. Secondary prevention is proven efficient but observational studies have shown that a number of patients are lost to follow up and do not receive recommended prevention. The aim of the study is to 1) describe, by analyzing register data, the detection rate of patients with hospital diagnosis of stroke, TIA, and atrial fibrillation in the primary care center where they are listed. The analysis is done by sex, age, and socioeconomic status. Furthermore, rate of dispensed prescriptions of secondary preventive drugs are analysed for the identified population. 2) in a randomized controlled study evaluate if collegial feed back and targeted information of secondary prevention to the intervention group can improve the detection rate and the medication of the patients listed at the participating primary care centers.
In acute stroke patients about 20 % have known diabetes. There is a doubled risk of recurrent stroke in diabetic patients. It has been shown that antiplatelet drugs are not as effective in diabetic patients as in non-diabetic patients. In acute stroke patients around 80 % have impaired glucose tolerance, which will improve after one month till about 60 %. This study includes acute patients with minor stroke or TIA. They are followed up at one and six months and then at every six months for at least four years. The investigators perform an OGTT and haemostatic tests within the first days after onset and then at one month. Blood pressure, metabolic parameters, bodyweight, physical activity and diet are collected at each visit. The investigators give the patients information about lifestyle changes as needed. As part of the study there is an interventional study, Medicine Yoga, an open randomized controlled study. Patients are randomized to 16 sessions of Yoga under professional instructions and a CD for home training or controls. The aims of this study are to investigate glucose tolerance in acute stroke and TIA patients, and its relation to the different haemostatic variables. The importance of glucose tolerance, haemostatic variables and other risk factors (blood pressure, lipids, BMI,) on cardiovascular events will be investigated and the possibility to affect these risk factors by lifestyle changes and Yoga. The effect of different antiplatelet drugs will be investigated in relation to glucose tolerance.
Patients suffering from symptomatic carotid artery stenosis, transient ischemic attacks (TIAs), amaurosis fugax or stroke receive either Revacept (single dose) plus antiplatelet monotherapy or monotherapy alone. Patients receive a single dose of trial medication by intravenous infusion for 20 minutes. Patients are followed up one and three days after treatment, at 3 months and by a telephone interview at 12 months.