View clinical trials related to Intracerebral Hemorrhage.
Filter by:Patients with severe ischemic and hemorrhagic strokes, who require mechanical ventilation, have a particularly bad prognosis. If they require long-term ventilation, their orotracheal tube needs to be, like in any other intensive care patient, replaced by a shorter tracheal tube below the larynx. This so called tracheostomy might be associated with advantages such as less demand of narcotics and pain killers, less lesions in mouth and larynx, better mouth hygiene, safer airway, more patient comfort and earlier mobilisation. The best timepoint for tracheostomy in stroke, however, is not known. This study investigates the potential benefits of early tracheostomy in ventilated critically ill patients with ischemic or hemorrhagic stroke.
The purpose of this study is to find risk factors for hemorrhagic stroke, specifically intracerebral hemorrhage (ICH), among Caucasians, African Americans, and Hispanics.
In Patients with minor head injury measurement of protein S100 will be introduced to the emergency departement as another tool to rule out intracerebral bleeding.
The purpose of this study is to determine if usage of early lumbar drainage leads to less shunt surgery and less catheter associated complications in patients with communicating hydrocephalus after intracerebral hemorrhage with severe ventricular involvement.
Rationale: Management of blood pressure (BP) in the acute phase of intracerebral hemorrhage (ICH) remains controversial. Although it has been established that there is a transient moderate reduction of perihematoma cerebral blood flow (CBF) in acute ICH, the effect of BP treatment is unknown. The potential for exacerbation of CBF has precluded routine aggressive BP reduction. Aim and Hypothesis: The primary study aim is to demonstrate the feasibility and safety of acute BP reduction to < 150 mmHg systolic using a standardized protocol in ICH patients. It is hypothesized that CTP will not demonstrate evidence of perihematoma ischemia following acute BP reduction. Design: ICH ADAPT is a randomized blinded endpoint trial. Acutely hypertensive ICH patients are randomized to a target systolic BP of < 150 mmHg or < 180 mmHg. Patients are treated with intravenous (IV) labetalol/hydralazine/enalapril. Study Outcomes: The primary outcome is cerebral blood flow in the perihematoma region, measured with CT perfusion, 2 hours after randomization. Secondary outcomes include the difference in BP at 1 and 2 hours post-randomization in the two treatment groups and hematoma expansion rates at 24 hours. Discussion: ICH ADAPT is the only randomized trial designed specifically to identify any hemodynamic changes in the perihematoma region secondary to aggressive BP management. The results of this trial will facilitate ongoing and future studies aimed at determining the efficacy of rapid BP reduction in acute ICH.
The investigators intend to show that DDAVP improves platelet activity from baseline to 60 minutes after treatment start.
Intracerebral hemorrhage (ICH) is a devastating disease with less than 20% of survivors being independent at 6 months. There is currently no approved treatment for ICH which has been shown to improve outcomes. In an effort to develop a new treatment for ICH, this research focuses on a different aspect of ICH treatment which has not yet been evaluated: enhancing absorption of the blood clot with medication.
The purpose of this study is to determine if computed tomography angiography can predict which individuals with intracerebral hemorrhage will experience significant growth in the size of the hemorrhage. For individuals who are at high risk for hemorrhage growth, the study will compare the drug recombinant activated factor VII (rFVIIa) to placebo to determine the effect of rFVIIa on intracerebral hemorrhage growth.
The purpose of this academic lead study is to determine if a treatment strategy of early intensive blood pressure (BP) lowering compared to conservative BP lowering policy in patients with elevated blood pressure within 6 hours of acute intracerebral haemorrhage (ICH) improves the outcome of death and disability at 3 months after onset.
Animal studies show that the breakdown of blood results in iron accumulation in the brain after brain hemorrhage (ICH); and that iron plays a role in brain injury in ICH patients. Deferoxamine (DFO) has been extensively used in clinical practice for more than 30 years to remove excessive iron from the body, and has been shown to provide some benefit in animal studies of ICH. Therefore, we plan to undertake this study to evaluate the safety and tolerability of treatment with DFO in patients with ICH, and to determine the maximal tolerated dose to be used in future studies to determine if treatment with DFO can improve the outcome of patients with ICH. Our main objectives are: 1) to evaluate the safety and tolerability of varying doses of DFO, by determining the treatment related adverse events, in patients with ICH; and 2) to determine the maximal tolerated dose to be adopted in subsequent studies to test the efficacy of DFO in improving outcome after ICH. We hypothesize that DFO is well-tolerated and has minimal serious adverse effects in patients with ICH; and that treatment with DFO will improve patients' outcome. The results can potentially bring into account new means to improve the outcome of patients with ICH. ICH is a frequent cause of disability and death. A successful study demonstrating the efficacy of iron-modifying therapy would be of considerable public health significance.