View clinical trials related to Intra Cerebral Hemorrhage.
Filter by:This study focuses on direct factor Xa inhibitors (apixaban, edoxaban, rivaroxaban) and the thrombin inhibitor dabigatran, commonly used for stroke prevention in atrial fibrillation. Despite lower intracranial bleeding risks with these drugs, around 0.2-1.0% of patients annually experience intracranial hemorrhage (ICH), predominantly intracerebral. Treatment options for factor-Xa inhibitor-associated ICH, such as prothrombin complex concentrate (PCC) and andexanet alfa, lack direct comparison evidence except for ongoing trials like ANNEXA-I. This trial assesses hemostatic efficacy and 30-day functional outcomes but leaves gaps regarding anticoagulant activity's role and long-term effects, especially in patients presenting late after drug intake. The measurement of anti-FXa levels helps guide decisions, yet their link to hematoma expansion remains unknown. Efforts to streamline measurement within 30 minutes for acute decisions have shown variability in levels, with some patients exhibiting high levels even beyond 12 hours post-intake. This lack of data poses challenges, particularly for patients potentially benefiting from treatment beyond the current strict time window. Early hematoma expansion strongly predicts poor outcomes, but preventing it faces challenges like recurrent events (up to 5% by 3 months) and rehabilitation intensity, potentially negating its benefits. The ANNEXA-I trial evaluates short-term outcomes, highlighting the need for additional data to comprehend long-term ICH prognosis. The study's objectives involve linking hematoma expansion to anti-FXa levels, determining late-presenting patients' risk of expansion, and identifying predictors of favorable outcomes at 3, 6, and 12 months. Primary endpoints include functional outcomes, while secondary ones encompass expansion rates, anticoagulant activity, and various events at 12 months. This research aims to bridge gaps in understanding factor-Xa inhibitor-related ICH, addressing both immediate and prolonged outcomes to enhance clinical decision-making.
A problem with breathing during sleep, called obstructive sleep apnea (OSA), likely increases the risk of stroke and is common in people who have had a stroke, present in about 2/3 of stroke survivors. There is also evidence that OSA predicts worse outcome after stroke. The question being addressed in the Stroke and CPAP Outcome Study 3 (SCOUTS3) is how to improve use of continuous positive airway pressure (CPAP) therapy to treat OSA when started during intensive stroke rehabilitation.
A randomized controlled trial of ultra-early, minimally invasive, hematoma evacuation versus standard care within 8 hours of intracerebral hemorrhage. Patients presenting to the emergency department with stroke due to supratentorial, spontaneous intracerebral hemorrhage >20mL volume will be assessed to determine their eligibility for randomization into the trial. If the patient gives informed consent they will be randomized 50:50 using central computerized allocation to minimally invasive hematoma evacuation using the Aurora surgiscope and evacuator (Integra Lifesciences) versus standard medical therapy. The trial is prospective, randomized, open-label, blinded endpoint (PROBE) design with seamless phase 2b-3 transition if the intermediate endpoint (successful hematoma evacuation) is met in analysis of the first 52 patients. Adaptive sample size re-estimation (Mehta and Pocock) will be performed when 160 patients have completed 6 month follow-up (minimum sample size 240, maximum sample size 434).
Background: While the intensive care of patients with life-threatening brain illnesses has advanced tremendously, a large number of therapies are still without proper scientific support. This can be partly explained by the fact that mechanisms of initial brain injury are still not well understood. Why additional neurological injury occurs during a patient's stay in the NeuroCritical Care Unit (NCCU) despite current best, evidence-based clinical practices, is also not well understood. However, over the past decade, better tools have become available to measure and monitor the impact of our clinical care on the rapidly changing physiology and chemistry of the injured brain. Some of these tools are CT, MRI, ultrasound, and catheter-based technology measuring blood flow and metabolism. These tools have enabled earlier detection of injury and complications and newer therapeutic strategies. Purpose: Examine disease pathways common to all brain injuries seen in the University of Maryland's 22-bed NCCU. Life-threatening neurological illnesses cared for in the NCCU include massive stroke, bleeding in and around the brain (subarachnoid hemorrhage, intracerebral hemorrhage, subdural hemorrhage, intraventricular hemorrhage), brain tumors, difficult to control seizures, neurologic infections, nerve and muscle diseases (such as myasthenia gravis or Guillain-Barre Syndrome), and spinal cord disorders among others. Many NCCU patients are comatose or paralyzed and may suffer injuries in other parts of the body as well. This effort will require the creation of a robust clinical database for the capture of data including patient characteristics (age, sex), clinical characteristics, medical treatments, surgical interventions, physiological data (such as vital signs, cerebral blood flow, intracranial pressure, cerebral oximetry, etc), laboratory data, and standard-of-care diagnostic studies such as electroencephalography (EEG), ultrasound, CT, MRI, and angiograms. Similar databases exist at other major centers for neurocritical care and have been instrumental to the identification of characteristics both predictive of and associated with outcomes of patients long after their stay in the NCCU. In addition, the samples collected will be included in the University of Maryland Medicine (UMM) Biorepository which is a shared resource to enable biomedical research by University of Maryland faculty.
The objectives of the RECONFIG clinical study are to : 1. To identify the time to the first diagnosis of cognitive motor dissociation (CMD) in intracerebral hemorrhage (ICH) patients and to investigate whether these patients will clinically follow commands earlier after the hemorrhage. 2. To determine whether CMD independently predicts long term functional outcomes (6-month mRS scores) in ICH patients, and is associated with long term cognitive and quality of life outcomes. 3. To determine the EEG response to verbal commands of the motor imagery paradigm between patients with and without sensory aphasia. The overall goal is to determine predictors and the trajectory of neurological recovery.