Cerebral Microbleeds During NOACs or Warfarin Therapy in NVAF Patients With Acute Ischemic Stroke...
Ischemic StrokeAtrial Fibrillation SymptomaticAnticoagulants are generally recognized as a necessary therapy to prevent the recurrence of ischemic stroke in patients with non-valvular atrial fibrillation (NVAF), but in some patients they also cause bleedings, particularly intracranial hemorrhage. One of the independent predictors of intracerebral hemorrhage is the presence of cerebral microbleeds (CMBs); a high incidence of intracerebral hemorrhage is reported in patients with multiple CMBs. Recent study suggested that patients who had CMBs at baseline developed more new CMBs after 2 years (26%), compared with patients (12%) who did not have CMBs at baseline. However, there has been no study on the progression of CMBs in patients receiving so-called novel oral anticoagulants (NOACs). This study tests the hypothesis that the incidence of hemorrhagic stroke is lower in patients receiving NOACs (dabigatran, rivaroxaban, apixaban, and edoxaban) than in those receiving warfarin, and this difference reflects the difference in the effects of warfarin and NOACs on the progression of CMBs. Towards this goal, we enroll 200 patients with at least one CMB detected by 1.5 T MRI (T2*WI) at baseline, who treated with NOACs or warfarin for 12 months. Primary endpoint is the proportion of subjects with an increased number of CMBs at Month 12 of treatment with NOACs or warfarin. If the results of this study support the efficacy of NOACs in preventing increase of CMBs, this would be of great interest to domestic and overseas clinicians, in view of the potential therapeutic impact, including that for primary prevention of ischemic stroke.
Inflammation and Post-Stroke Depression
StrokeAcute StrokeThis study is being done to see if there is a relationship between stroke, post-stroke depression, and measures of inflammatory and/or stress compounds in the blood. Brain injury, as caused by stroke, leads to an inflammatory response in the brain which in turn can influence inflammatory and stress responses in other parts of the body outside of the brain. These responses can be measured by analyzing various substances in the blood and in the white blood cells. The investigators will measure these substances (cytokines, glucocorticoids) and compare them to the absence, presence, or degree of depression that the investigators will determine by neurological and psychological testing. The investigators will be drawing blood for this study on admission, at or around day 3, at or around day 7 and at or around day 90, which is not part of routine stroke care. The investigators will be asking subjects to participate in answering question/scales on these same days, some of these questionnaires are also not part of routine stroke care. Standard stroke care is being done other than blood drawing/participating in answering questions/scales. Approximately 25 people will be enrolled over one year.
Endothelial Function and Progenitor Cells in Acute Ischemic Stroke
Ischemic StrokeThe purpose of this study is to determine whether levels of circulating endothelial progenitor cells (cEPC) are increased in the acute phase of ischemic stroke.
Blood Pressure Level and Prognosis in Acute Stroke
StrokeStroke is the leading cause of mortality in Brazil. Strict blood pressure control in chronic phase is the major measure to primary and secondary prevention, but in acute phase is not clear the best blood pressure level. Few studies demonstrate a "U" relationship between blood pressure and lethality; nevertheless any Brazilian study has addressed this issue. This is a prospective observational study on the relationship between BP and mortality in the acute phase of stroke. The study will be conducted in the Adult ICU of HC-UNESP. Will be analyzed 266 patients aged 18 years and of both sexes admitted to the ICU with a diagnosis of hemorrhagic and ischemic stroke. Participants will be divided into three groups according to the initial PA present: Group A: Patients with systolic BP of entry below 140 mmHg; Group B: Patients with systolic BP of entry between 140 and 180 mmHg; Group C: patients with systolic BP greater than 180 mmHg entry. Multiple logistic regression analysis will be done to verify the association of blood pressure and lethality adjusted to confounding variables.
Polymorphism of Estrogen Genes in Stroke
Ischemic StrokeThe purpose of this study is to explore the association between the genetic polymorphisms of estrogen-related genes, including estrogen synthesis, metabolizing, and receptor genes, and ischemic stroke. Furthermore, independent and joint effects of traditional risk factors and estrogen related genes on risk of stroke in young adults will also be examined in this study.
Αdherence and Persistence to Oral Anticoagulation in ΑF Patients With Previous Ischemic Stroke
Ischemic StrokeThe aims of this project are to: investigate the adherence and persistence to anticoagulation (and in specific, to VKAs and NOACs) in AF patients with previous ischemic stroke; identify predictors of poor adherence and persistence and assess whether the SAMe-TT2R2 score predicts adherence and persistence to anticoagulation
General Anesthesia for Endovascular Thrombectomy; A Pilot Study.
StrokeCerebrovascular Stroke7 moreThis study evaluates the outcomes of stroke patients treated for intravascular thrombectomy, using either a local anesthetic with sedation, or a general anesthetic. Historical data will be used for those treated with the local anesthetic, and prospective data will be used for those treated with the general anesthetic.
Acute Stroke Advancing Program Using Telemedicine
StrokeThe purpose is to evaluate the effectiveness and safety profile of telemedicine consultation system in making decision on IV thrombolysis.
Diagnosis and Treatment of Minor Ischaemic Stroke According to the Etiology and Pathogenesis
Ischaemic StrokeNegligence or contempt of the etiology and pathogenesis of minor ischaemic stroke in the early diagnosis and effective treatment leads to more than 40-50% of patient with recurrent episodes, and 10% patient died. Therefore, diagnosis and treatment of minor ischaemic stroke according to the etiology and pathogenesis is important. The 2007 Korean modified TOAST type got some progress, but there exists two major disadvantages: imperfect diagnosis and pathogenesis of perforator artery infarction etiology; lack of typing according to the pathogenesis of large atherosclerotic infarction and taking measures of treatment according to the new types. Recently, domestic professor Gaoshan proposes new approach to diagnose and treat minor ischaemic stroke according to the etiology and pathogenesis of CISS typing, but the pathogenesis of hypoperfusion infarction with severe stenosis of large artery is unclear. Is it low perfusion? Or artery-artery embolization? Or both? How to distinguish the pathogenesis of branch artery disease: by atherosclerosis? Or hyalinosis? Or both? How to check the validity of clinical types? This study take different interventions according to different types and observation of the long term clinical results of intervention( mortality, recurrence rate, disability rate and rate of cerebral hemorrhage and subarachnoid hemorrhage), in order to clarify the new types can indeed solve the current problem of minor ischaemic stroke with high mortality, recurrence rate, disability rate and rate of cerebral hemorrhage and subarachnoid hemorrhage.
Biomarkers to Predict Gain From Therapy in Motor Stroke
StrokeMotor Activity1 moreThe aim is to determine predictors of treatment response, i.e gain from rehabilitation training, in post stroke upper limb deficits. The investigators will like to answer the following question: "What is this patient's potential for recovery, given his profile?" The investigators propose to conduct a longitudinal physiopathological study on the stroke patients with motor deficits who entered the rehab center of Pitié Salpêtrière hospital. The investigators will benefit from the organization, which is already in place (clinical asssessments and training) to add MRI, TMS and EEG recordings, as well as genotype analysis before the training offered in the rehabilitation unit. The investigators will repeat these assessments after the training (immeadiately and 6 weeks after).