View clinical trials related to Intracranial Hemorrhages.
Filter by:Glioma patients with history of venous thromboembolism (VTE) treated on low molecular weight heparin (LMWH) and who decided with their physician to convert to Apixaban (oral drug) will be enrolled into our study and will collect data regarding recurrent VTE and Intracranial hemorrhage and the incidence of these events.
The purpose of this prospective, single center, single arm registry is to assess technical feasibility, peri-procedural complications, post-procedure imaging outcomes, and 30-day safety outcomes in subjects with intraventricular hemorrhages utilizing the Artemis Neuro Evacuation Device in the hyper-acute phase.
This study will evaluate the feasibility of dual tDCS to improve arm motor function in chronic stroke patients. In addition it will collect pilot data on the blood biomarkers associated with treatment effect.
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.
Dexmedetomidine is a unique sedative medication able to provide sedation without causing respiratory depression and maintaining neurological functions. Patients having an acute ischemic stroke and need to undergo endovascular therapy require constant assessment of their neurological status prior, during and after the interventional procedure. In this study the investigators will compare the efficacy of Dexmedetomidine to other standard sedative medications in providing optimal sedative effect while maintaining neurological function.
The objective of this study is to determine if the administration of platelets will improve outcome in patients with ICH who are being treated with either aspirin, a thienopyridine (ticlodipine, clopidogrel, prasugrel) or a combination of both. The study has four specific aims: 1. To determine what affect platelet administration will have on bleeding in the brain. 2. To determine what affect platelet administration will have on brain function. Several assessments to test the functioning of the brain will be performed at enrollment and throughout the study. Comparing the results of these assessments between the experimental and control groups should allow us to determine if platelet administration improves outcomes in patients with bleeding in the brain exposed to antiplatelet therapy. 3. An important risk of reversing antiplatelet therapy is exposing the patient to the very complications this therapy was designed to prevent. Therefore, tracking complications will be a very important part of this study. The investigators will compare the rates of death, heart attack, stroke and clots in the veins between groups. 4. Some patients (10-40%) have limited responsiveness to antiplatelet therapy. While platelet responsiveness, as measured by a special platelet blood test, will not affect enrollment, the investigators feel it will be important to measure.
Primary Objective: To determine the effects of a diabetes specific enteral formula compared to a standard formula supplemented with protein (isocaloric and isonitrogenous) on the mean blood glucose and glycemic variability in a homogenous group of critically ill patients in a neurological ICU. Blood glucose will be recorded every minute using a continuous blood glucose monitor. The primary end points will be the difference between the mean blood glucose levels and the glucose variability between the control and intervention groups for the time period that the patient is in the ICU and receiving tube feeds and for up to a maximum of 14 days. Secondary Objectives: To determine the effects of the diabetes specific versus standard tube feeds on the change in muscle thickness and volume measured by 2-dimensional ultrasound imaging during the patients ICU stay.
This study is being performed to confirm that the new technique, Model-Based Iterative Reconstruction (MBIR) with reduced radiation dose can deliver equivalent image quality for CT scans compared to current techniques (Filtered Back Projection with Adaptive Statistical Iterative Reconstruction (FBP with ASiR) and also to demonstrate that MBIR can improve general image quality characteristics at equivalent radiation dose levels.
The purpose of this dose-ranging pilot study is to compare Recombinant Activated Factor VII, Prothrombin Complex Concentrate and Fresh Frozen Plasma (each starting at low doses with escalation if necessary) for the reversal of warfarin in the setting of acute intracranial hemorrhage.