View clinical trials related to Ischemic Attack, Transient.
Filter by:Study Design: This is a multicentre, prospective, open-label, single arm, phase IV registry study. No additional procedures are included in the study. Standard clinical data will be collected. This will include a physical examination and NIHSS score assessment at baseline. In addition, all neuro-imaging will be collected. Standard imaging includes a non-contrast CT brain at baseline and 7±2 days post-treatment. Repeat NIHSS score assessment at the time of the 7 day CT scan. Repeat clinical and NIHSS score assessment 30 days post-enrolment will also be collected when performed as part of standard care. Study Objectives: 1. Demonstrate the safety of early dabigatran initiation after minor stroke/TIA in patients with atrial fibrillation. 2. Determine the frequency of asymptomatic hemorrhagic transformation after 7 days of dabigatran treatment following stroke/TIA 3. Determine the effect of asymptomatic hemorrhagic transformation on functional and neurological outcome at 30 days.
Hardened plaque located in the carotid arteries can cause stroke or transient ischemic attack (TIA). This type of plaque is linked to unstable free-floating thrombi (FFT). FFT are blood clots that form in a blood vessel, and are at the highest risk for travelling within the bloodstream and causing strokes. Physicians are able to see this type of plaque with computed tomographic angiography (CTA) but FFT look very similar to stable types of plaque that do not require urgent treatment. Distinguishing between these plaques is important because it affects the choice and urgency of treatment that patients receive. The researchers have found a promising visual marker on CTA scans. The goal of this study is to determine if this visual marker seen on CTA scans will help to distinguish FFT plaque from stable plaque.
The purpose of the Patient and Provider Assessment of Lipid Management Registry (PALM) is to gain a better understanding of physicians' cholesterol medication prescribing practices, patient and physician attitudes and beliefs related to cholesterol management, and current utilization of cholesterol-lowering therapies given the new ACC/AHA guideline recommendations. The PALM Registry hopes to allow for the design of ways to improve cholesterol management and decrease the burden of cardiovascular disease (CVD) in the US.
Secondary preventative medications are prescribed to reduce the risk of recurrent stroke following ischaemic stroke. However, continuation rates can be as low as 50% and are likely to be multifactorial. One factor will be patients forgetting to take the medication or a reduced appreciation of the importance of the medication as the time from the stroke passes. Numerous approaches to improve persistence to secondary preventative medications have been tried. One simple approach is use of mobile phone text messages as a reminder for patients to take their medications. In this study, we will introduce an educational and motivational strategy to inform patients about their medications and explore whether a reminder intervention, using Short Message Service (SMS), improves adherence to antiplatelet drugs, antihypertensive medications and lipid lowering drugs. We will also explore whether this improves blood pressure and cholesterol levels in the first 3 months after stroke.
Background: About 5% of patients with acute coronary syndrome (ACS) have had previously ischemic stroke (IS) or transitory ischemic attack (TIA). This is a high-risk population, with a high incidence of ischemic events, and also of bleeding events. While the high ischemic risk in this population is attributed to a higher prevalence of cardiovascular risk factors, their predisposition to bleeding events is not well understood. Hypothesis: The increased bleeding risk in ACS patients with history of cerebrovascular event may be justified by a low platelet activity. Methods: Unicentric, prospective, case-control study, which included approximately 100 post-ACS patients with history of IS/TIA previously to the acute coronary event (Case Group) and 100 patients without IS/TIA (Control group). The groups were matched for gender, age, and ACS type and year of occurrence. All patients were taking aspirin, and the main exclusion criteria were use of dual antiplatelet therapy, previous hemorrhagic stroke, severe renal dysfunction, thrombocytopenia or coagulopathy. Main analysis: Platelet aggregation was evaluated by 6 methods: VerifyNow Aspirin®, VerifyNow P2Y12®, PFA 100®, thrombelastography (ReoRox®), light transmission aggregometry with ADP (LTA ADP) and epinephrine (LTA EPI) as agonists. Additional analysis: genetic, HDL transport and inflammatory evaliation
Rationale: To date, anticoagulant therapy in acute stroke has also been limited by excess hemorrhagic events. The oral anticoagulant dabigatran is a novel agent, which has been shown to be associated with much lower intracranial hemorrhage rates. It has been suggested that this agent may provide the superior benefits of anticoagulation in acute stroke, without the concomitant increase in hemorrhage risk associated with heparin/LMWH or warfarin. Study Design: DATAS II is a randomized, open label blinded endpoint trial. Participants (n=300) with TIA or ischemic stroke (NIHSS score <9) will be enrolled within 48 hours of symptom onset from approximately four (4) health care centres across Canada. All participants will have an MRI with DWI lesion volume < 25 ml. Participants will be randomized 1:1 to treatment with dabigatran for 30 days or ASA 81 mg daily (current standard of care). All stroke patients will initially be screened with a non-contrast CT scan of the brain. The first MRI will be performed within 48 hours of symptom onset. Imaging studies will be repeated at day 30. All patients will be assessed clinically at Day 30 and Day 90. Study Aims: 1. Establish the safety of early anticoagulation with the novel oral anticoagulant dabigatran in acute cerebrovascular syndrome patients. 2. Identify the rate of both symptomatic and asymptomatic hemorrhagic transformation (HT) associated with these treatments. 3. Identify predictors of HT associated with acute dabigatran treatment. Hypothesis: The Investigators hypothesize that symptomatic HT rates in dabigatran and ASA treated patients will not be significantly different. Study outcomes: The primary outcome is the rate of symptomatic hemorrhagic transformation (HT), defined as a parenchymal hematoma, which is >30% of the infarcted area on DWI, with substantial space- occupying effect, associated with clinical worsening (≥4 point increase in National Institutes of Health Stroke Scale (NIHSS) score) within 5 weeks of treatment initiation. The major secondary outcome the rate of asymtomatic HT see on day 30 MRI sequence.
The purpose of this study is to evaluate if Apixaban will decrease the complication of having another stroke for people who have atrial fibrillation if initiated earlier than standard of care.
Atrial fibrillation is a common cardiac arrhythmia and a major risk for ischemic stroke. Furthermore the risk of stroke is higher in the first month after transient ischemic attack (TIA)/stroke. Rivaroxaban has been approved by Health Canada over period of last two years for prevention of stroke and have been found equally effective as oral Vitamin K antagonist. The foremost benefits of NOAC are reduced intracranial bleeding risk and does not require coagulation monitoring. Optimal timing of anticoagulation after TIA/stroke in patients with known non-valvular atrial fibrillation is not known. The practice is variable and opinion based. The bias for many stroke physicians and neurologists is to start later (after 1-2weeks) to prevent hemorrhagic transformation thus possibly exposing the patients to an increased risk of recurrence. The product monograph for the drug suggest to wait for variable of 3 to 14 days before starting the NOAC (Waiting period:14 days for dabigatran and rivaroxaban, 7 days for Apixaban after ischemic stroke and three days after TIA for rivaroxaban). The times have been chosen arbitrary. The investigators aim to study incidence of symptomatic hemorrhage in patients with non-valvular atrial fibrillation who are initiated with new oral anticoagulants early after TIA and stroke.
Specific cardiovascular diseases, such as stroke and heart attack, have been shown to vary by ethnic group. However, less is known about differences between ethnic groups and a wider range of cardiovascular diseases. This study will examine differences between ethnic groups (White, Black, South Asian and Mixed/Other) and first lifetime presentation of twelve different cardiovascular diseases. This information may help to predict the onset of cardiovascular diseases and inform disease prevention strategies. The hypothesis is that different ethnic groups have differing associations with the range of cardiovascular diseases studied.
Patients after ischemic stroke are at high risk of recurrent cardiovascular events and of developing post-stroke complications. There is a substantial gap between risk factor management in real life and that recommended by international guidelines. Stroke Card is a multifaceted comprehensive post-stroke disease management program to detect and treat complications and optimize secondary prevention. The investigators hypothesize that, compared to standard care, Stroke Card will lead to an at least 33.3% risk reduction in recurrent cardiovascular events and improve health-related quality-of-life.