Active clinical trials for "Cerebral Hemorrhage"

A collection of biological samples (cerebrospinal fluid [CSF] and blood) from patients under 6 years of age who are diagnosed with intraventricular hemorrhage or spina bifida.

Intraventricular haemorrhage (IVH) - bleeding into the normal fluid spaces (ventricles) within the brain - is associated with a high risk of death or significant long-term disability. IVH leads to an increase pressure within the head and triggers inflammation and swelling in the surrounding brain. The ideal treatment for IVH would both rapidly relieve pressure and safely remove as much blood as possible to prevent any further injury to the brain. Currently, patients are managed by inserting a tube into the ventricle that drains fluid to the outside and helps reduce pressure, but does not address the blood clot itself, which naturally dissolves only over several days or weeks. Furthermore, these drains frequently block because of blood clots that for within them. If that occurs a repeat operation is required to replace them. Experimental treatments include infusing drugs to accelerate clot breakdown but this can nonetheless still take a number of days and the process introduces a risk of infection and fresh bleeding. Surgery to remove the blood clot is hazardous, technically challenging, and generally not very successful. Therefore, at the present time, none of the available options achieve all the stated goals of IVH treatment and there is an unmet need for better interventions. In this study the investigators propose to pilot a novel instrument that employs a high pressure but very localised microjet of water to mechanically disrupt blood clots and then sucks the debris away. This technique has been highly successful in reopening blocked arteries in the heart and, importantly, does so without damaging the underlying vessel lining. In the context of IVH, this should allow rapid removal of blood from the ventricles while causing minimal trauma to the brain. Clearing the blood early will prevent the build-up of pressure and inflammation, and improve the chances of patients making a good recovery.

Views for surgery method selection of intracerebral hemorrhage are still controversial. Since the application of neuroendoscopic technique in intraventricular hemorrhage was confirmed effective and safe, some investigators have attempted to use endoscopic strategies to evacuate intracerebral hematomas. Some significant advances have also been reported in endoscopic hematoma evacuation when compared to conventional craniotomy. However, it is still crucial to implement a prospective and controlled study to evaluate the efficiency and safety of endoscopic technique in the treatment of intracerebral hemorrhage. In this study, the investigators will exclusively select some patients with intracerebral hemorrhage in the basal ganglia region. This study will compare the efficacy and safety of endoscopic surgery versus stereotactic aspiration on neurologic outcomes for patients with intracerebral hemorrhage.

A randomized, multicenter study comparing two strategies: 1 / standard management of systolic blood pressure according to international recommendations (systolic blood pressure <185 mm Hg) versus 2 / intensive blood pressure management Systolic with a target <130 mm Hg.

The purpose of this study is to determine whether the Biomarkers (pro adrenomedullin (MR proADM), pro arginin vasopressin (CT proAVP), pro atrial natriuretic peptid (MR proANP), Pro Endothelin) changes at Day 2, Day 5 and Day 7 of ICU admission are correlated with Intravascular volume assessed by Cr 51 on red blood cells (Day 2 and Day 7) and by I 125 on albumine Day 7. The correlation of these Biomarkers are also evaluted with other markers such as erythropoietin and catecholamines. 80 ICU patients are included.

This study examines early antiepileptic treatment with valproic acid for acute cerebral hemorrhage against a placebo group immediately post event to evaluate the outcome of these patients regarding seizures and neurological outcome.

The purpose of this research is to use the "Removing Blood Stasis Decotion" of traditional Chinese medicine treating the acute stage of cerebral hemorrhage with stroke associated pneumonia to explore the impact of "Removing Blood Stasis Therapy" on intestinal microbial flora either within the time window from 6 to 72 hours onset.

To establish whether a policy of earlier surgical evacuation of the haematoma in selected patients with spontaneous lobar ICH will improve outcome compared to a policy of initial conservative treatment. The trial will also help to better define the indications for early surgery. This will overcome two of the criticisms of STICH (timing was too late and sometimes location was too deep). The subgroup identified in STICH is clinically sensible and the hypothesis identified for STICH II is in line with current neurosurgical opinion.

Fundoscopy, optical coherence tomography (OCT) and OCT-angiography (OCTA) are established examinations and bear minimal risks. The recognition of retinal microvascular signs will enhance the pathophysiological understanding of the vasculopathy in patients with intracerebral haemorrhage (ICH) and aneurysmatic subarachnoid hemorrhage (aSAH) and might serve as prognostic and diagnostic indicators.

Non-traumatic intracerebral hemorrhage (ICH) affects approximately 100,000 Americans yearly. Up to 30-50% of ICH is fatal, and those patients who survive are often left with significant neurologic dysfunction. In the past, medical management (e.g., control of hypertension, reversal of antiplatelet or anticoagulants) had been the most effective treatment for these patients, given the morbidity and mortality associated with open surgical treatment for evacuation of ICH. However, recent trials have demonstrated that minimally invasive stereotactic neurosurgical procedures to evacuate ICH are safe and result in improved outcomes for these patients. Initial attempts to evaluate the efficacy of surgical evacuation of ICH found no significant difference between medical management and standard craniotomy for surgical evacuation. Indeed, open surgery was often discouraged for these patients due to the significant morbidity and mortality associated with the surgical procedure itself. However, research has demonstrated that minimally invasive, image guided stereotactic frame-based and frameless methods are effective and safe for the placement of catheters for clot aspiration and fibrinolytic therapy of ICH in the basal ganglia and other deep seated regions. Larger randomized controlled trials have demonstrated that these minimally invasive approaches also offer clinical benefit for these patients.