View clinical trials related to Intracranial Hemorrhages.
Filter by:Randomized, controlled clinical trial evaluating the efficacy and safety of andexanet alfa versus usual care in patients with intracranial hemorrhage anticoagulated with a direct oral FXa anticoagulant
The purpose of this project is to quantify normal and abnormal skin blood flow regionally in different areas of the body(face, extremities, over burns and wounds) at baseline and over time in response to treatment or environmental changes, such as temperature, light and pressure.
The purpose of this prospective cohort study is to investigate whether antithrombotic therapy in the secondary prevention of ischemic stroke increases the risk of the emerging CMBs and whether the change is associated with an increased risk of intracranial hemorrhage, providing an imaging evidence for individualized antithrombotic therapy in such patients.
In this project, we will try to enhance the diagnostic potentials of amyloid PET in CAA by combination of dynamic amyloid PET with MRI SWI and MR perfusion images. We will also try to investigate the roles of CAA in patients with drug-related ICH and validate the accuracy of clinical CAA diagnostic criteria. In addition, we will try to study the characteristics of long-term progression of amyloid deposition in CAA patients. This project will enroll 100 patients with ICH, 30 patients with AD, and 30 control subjects. Each patient will receive the above image studies, followed by data analysis and comparison.
The primary objective is to evaluate the safety and tolerability of single ascending dose of Y-2 sublingual tablets in healthy male and female adult subjects. The secondary objective is to characterize the single-dose pharmacokinetics of Y-2 sublingual tablets in healthy male and female adult subjects.
The purpose of this study is to determine whether treatment with remote ischemic conditioning is of sufficient promise to improve outcome before conducting a larger clinical trial to examine its effectiveness as a treatment for intracerebral hemorrhage.
Observational study to investigate the natural course of intracranial pressure (ICP) after decompressive craniectomy (DC) using long-term telemetric ICP monitoring. Patients will have continuous ICP measurement performed during the admission to the neuro-intensive care unit (NICU) and after discharge weekly measurements sessions will be performed before and after cranioplasty.
A monocentric, non-randomized, prospective study in which each patient is his/her own control. The study investigates 2 methods of blood pressure measurement, within the first 24 hours after reperfusion, i) Continuous measurement of blood pressure with the Clearsight device (Edwards) and ii) intermittent blood pressure measurements with cuff.
The primary objective of this multicenter randomized controlled study is to compare the safety and efficacy of minimally invasive hematoma evacuation with the Artemis Neuro Evacuation Device to best medical management for the treatment of intracerebral hemorrhage (ICH).
In the UK, 23,000 (15%) of the 150,000 people who suffer a stroke each year have bleeding in the brain, also referred to as acute intracerebral haemorrhage (ICH). An Autoregulation Index (ARI) can be assigned between 0 and 9 (0 being poor and 9 being the most efficient CA observed) to gauge how good the control over blood flow is at a given time. Dynamic CA (dCA) is a measure of the response of cerebral blood flow (CBF) to rapid changes in blood pressure (BP), and several key studies have shown impaired dCA post-acute ICH. The most recent study demonstrated that dCA impairment lasts up to 12 days. This is particularly important to understand, since our preliminary work has recently shown that changes in carbon dioxide using simple breathing exercises can improve Autoregulation. Unfortunately, there are limited non-pharmacological management options and significant opportunities to improve patient outcome in ICH. The proposed study addresses this area, by investigating whether a simple breathing exercise in survivors of ICH is safe, feasible and effective in reducing brain injury by improving cerebral autoregulation.