View clinical trials related to Ischemia.
Filter by:The study objectives are to assess any changes in visual acuity and visual field observed following the administration of RPh201 during an overall treatment period of at least 13 consecutive weeks with an option to extended the treatment phase to another 13 weeks (26 weeks total), and at the follow-up visit at 3 month after end of treatment in patients with optic nerve neuropathy.
This study is intended to collect safety and effectiveness data on the Cook Micronized Small Intestinal Submucosa (SIS)
The study is intended to evaluate the safety and feasibility of using the Intact Vascular (Innovasc) Tack-It Endovascular Dissection Repair System (Tack Intravascular Staple System) in patients with vascular flaps in the infrainguinal due post-angioplasty dissection.
The aim of this study is to study the safety and clinical efficacy of a novel Bioabsorbable Everolimus Eluting Bioresorbable Vascular Scaffold System (BVS, Abbott Vascular) in subjects with critical limb ischemia (CLI) following percutaneous transluminal angioplasty (PTA) of the tibial arteries.
Rationale Acute ischemic stroke due to atrial fibrillation (AF) carries a high risk for early recurrence. In acute stage, guidelines recommend aspirin, but do not recommend anticoagulation due to the increased risk of intracranial bleeding. Since, aspirin has a limited efficacy of preventing recurrent stroke in AF, expert consensus suggests early anticoagulation in non-severe stroke with AF. The current practice for acute ischemic stroke patients with AF is delayed warfarin administration with aspirin use for non-minor stroke or immediate warfarin administration (sometimes with heparin bridging) for minor stroke. However, conventional anticoagulation with warfarin in acute ischemic stroke with AF has the following limitations: 1) risk of intracranial bleeding particularly in acute stage, 2) delayed action and transient paradoxical thrombogenic tendency due to the inhibition of protein C, resulting in the risk of early recurrent embolic stroke, and 3) prolongation of hospitalization waiting for full anticoagulation. In contrast, as compared to warfarin, rivaroxaban is advantageous for reduced risk of intracranial bleeding and immediate anticoagulation efficacy. Goal The current trial will examine whether early initiation (within 5 days from stroke onset) of rivaroxaban as compared to conventional warfarin would reduce intracranial bleeding, recurrent embolic stroke, and hospital stay in patients with acute ischemic stroke due to AF.
Lower extremity peripheral arterial disease (LEPAD) is a highly prevalent chronic disease. Cardiovascular mortality of LEPAD patients at five years ranges between 18 to 30%. LEPAD is primarily caused by atherosclerosis that induces an inadequate blood flow to meet the tissues demand due to the narrowing of the arteries. An aggravation of the arterial lesions in LEPAD patients induces a worsening of patients' symptoms and a severe limitation of their walking capacity, contributing to an impairment of their quality of life. Despite maintaining a sufficient walking activity is essential for these patients, LEPAD patients lower their physical activity, which worsen the disease and potentially contribute to increase the risk of cardiovascular events and deaths. In a recent study in LEPAD patients, we showed, from a one hour GPS recording, a high variability of the patients' walking capacity (i.e., walking distances between two stops induced by lower limbs pain). Results suggested that in most patients previous stop duration before each walk was a predictor parameter of this walking variability. Whether there is an optimal or minimal recovery time influencing the walking capacity in LEPAD patients has never been studied. This study is a prospective, cross-sectional study in exercise pathophysiology. The main goal is to determine, following a walk that induces ischemia, the influence of the recovery duration on the subsequent walking performance in LEPAD patients. Secondary goals are : 1. To determine the nature of the relationship between the recovery duration and subsequent walking performance. 2. To study the relationship between exercise ischemia, pain evolution and previous recovery duration. 3. To determine whether the experimental procedure influence the determination of an optimal of minimal recovery duration. 4. To study the influence of recovery duration on walking capacity from community-based measurement.
The purpose of the Trevo® Retriever Registry is to collect real world performance data of the Trevo Retriever which is intended to restore blood flow in the neurovasculature by removing thrombus in patients experiencing ischemic stroke.
Acute coronary syndrome is defined as myocardial infarction or ischemia as evidenced by significant coronary artery disease on cardiac catheterization/revascularization or reversible defect seen on stress test. Each year approximately 8-10 million patients undergo an emergency department evaluation for possible acute coronary syndrome (ACS) in the United States Up to 8%of patients who have myocardial infarction (MI) are inadvertently discharged. Unnecessary admissions for presumed myocardial disease result in health care costs that are estimated to exceed 5 billion dollars annually Currently, the cardiac biomarkers troponin and Creatine phosphokinase (CPK-MB), in conjunction with ECG changes are used to evaluate a patient routinely for ACS. However, these tests have limitations for identifying most patients who have ACS in a rapid fashion. Purine molecules such as inosine and hypoxanthine and have been shown to also be biomarkers of acute MI. High pressure liquid chromatography (HPLC) is the traditional method of analysis of these purines. The HPLC method however requires hours to assess biomarkers, as do the more traditionally used troponin and CK-MB methods. Recently, the investigator has developed a rapid chemo luminescence method for detecting purine biomarkers. This modality can provide an expeditious (requires less than 4 minutes to complete analysis), bedside method of analysis for ACS through routinely acquired blood samples. In this study the investigator will compare the results of the chemo luminescence method with the gold standard HPLC method, and results of the traditional cardiac markers troponin and Creatine phosphokinase (CK-MB) in patients undergoing an evaluation for ACS. Details of noninvasive and invasive cardiac assessments performed as part of the routine evaluation by the clinician for myocardial assessment and intervention in conjunction with biomarker assessment will be obtained. The investigator hypothesize that the rapid chemo luminescence biomarker assessment will identify patients with ACS faster than traditional diagnostic methods. The goal of this study is to assess the role of rapid assessment of purine biomarkers in identifying patients who may have ACS.
Intravenous (IV) tissue plasminogen activator (tPA) is the only FDA-approved therapy for treatment of acute ischemic stroke. In the United States, IV tPA is typically administered in the Emergency Department (ED) for patients presenting with acute ischemic stroke within 4.5 hours of symptom onset. It is current practice that post-tPA patients are monitored in an intensive care unit or intensive care unit (ICU)-like setting for at least 24 hours, in part due to frequent vital sign and neurological monitoring that is currently the standard of care. However, rigorous evidence to support this practice is largely lacking. In a retrospective analysis of 153 patients receiving IV tPA at Johns Hopkins Hospital (JHH) and Johns Hopkins Bayview Medical Center (JHBMC), investigators have shown that most patients who have ICU needs in the first 24 hours after tPA administration develop such needs by the end of the tPA infusion. Patients without ICU needs by the end of the tPA infusion, do not require further ICU resources if patients' presenting NIH Stroke Scale (NIHSS) is below 10. This study is a prospective clinical trial that aims at establishing the first proof-of-concept and feasibility of whether patients with a low NIHSS (NIHSS 9 or less) and that do not need ICU care by the end of the tPA infusion, can be monitored safely in a non-ICU setting with a novel monitoring protocol. Identifying post-tPA patients who can be safely monitored in a non-ICU environment may improve cost-effective utilization of ICU resources and reduce the length of hospitalization for stroke patients.
Patients with a transient ischemic attack (TIA) are at high risk of stroke. Rapid assessment and treatment can reduce the risk. Several international guidelines recommend a test, the ABCD2 score, to identify TIA patients with low and high risk for stroke. The main purpose of this study is to investigate stroke risk after TIA in both short (1 week) and long term (3 months/1 year), and to assess whether the ABCD2 score ('Age, blood pressure, clinical features, duration of TIA, diabetes score) is an adequate tool for predicting stroke risk. Secondary aims are to explore whether adopting imaging modalities (ultrasound, MRI) and biological markers of blood into a risk score could improve the predictive value of the ABCD2 score and still be feasible in a daily clinical practice. Further on overall risk factors in TIA patients, and the incidence of other vascular events will be studied. A substudy designed as a randomised controlled trial evaluates pharmaceutical counseling in a subset of participants. Cost-benefit analysis, and a long-term follow-up (5 years) is planned.