View clinical trials related to Subarachnoid Hemorrhage.
Filter by:This is a randomized, placebo-controlled, single-center clinical trial investigating the effectiveness of administrating intravenous Cerebrolysin™ (EVER NEURO Pharma, Austria), a preparation of low-molecular weight neurotrophic peptides and free amino acids, in improving the functional outcome of patients suffering from aneurysmal subarachnoid haemorrhage ( SAH). Cerebrolysin™ is a porcine-derived intravenous formulation composed of multiple lipid-soluble active agents that can cross the blood-brain barrier. It is a registered medication in several countries indicated for stroke and Alzheimer's disease. It contains several low molecular weight neuropeptides and free amino acids that possess neuroprotective and neurotrophic properties. It has been proven to arrest or mitigate several crucial steps along the ischemic cascade in preclinical studies. Cerebrolysin™ has been extensively investigated in patients suffering from Alzheimer's disease, brain trauma and ischemic stroke with promising clinical results. It's use in SAH patients has never been investigated and it is believed that it may play a role in improving clinical outcomes. Consecutive patients aged 18 to 70 years-old diagnosed to have spontaneous subarachnoid hemorrhage secondary to a ruptured intracranial aneurysm will be randomly allocated into one of two study arms: (1) to receive intravenous Cerebrolysin™ in additional to standard of care (intervention group) or (2) to receive usual standard of care alone (control group). Permuted-block randomization will be carried out once the eligibility criteria have been fulfilled using a computer system with an allocation list of random order. Instructions on study arm allocation will be contained in sealed envelopes labeled with sequential study numbers. Patients presenting beyond 96 hours after onset of symptoms or if recruitment and randomization cannot be performed within this time period will be excluded. The reason being that post-SAH arterial vasospasm and delayed cerebral ischemia usually occurs four days after aneurysm rupture and lasts for two weeks i.e. 14 days. Should this complication arise before Cerebrolysin™ is administered there would be significant confounding of trial outcome measures . The timing of intervention is in keeping with several landmark clinical studies that have dealt with neuroprotective agents in subarachnoid hemorrhage. Patients in the intervention group will receive in a daily total dose of 30ml of intravenous Cerebrolysin™. The study medication will be administered in three separate 10ml doses (every eight hours) diluted in 0.9% NaCl saline to a total volume of 100 ml as an intravenous infusion over a time period of 15 minutes. An identical amount of 0.9% sodium chloride (NaCl) saline (100 ml) will be used as placebo for patients allocated to the control study group. The total duration of study medication or placebo administration will be 14 days. Cerebrolysin™ is a clear yellow solution. Since it is susceptible to photo-degeneration the preparation after dilution with 0.9% NaCl saline requires masking with a opaque plastic wrap as well as special photo-protective infusion sets. The dilution of the Cerebrolysin™ solution will be performed by ward nursing staff . Subjects in both trial groups will receive identically wrapped preparations so that both the functional outcomes assessor and patient are blind to the study arm allocation. In addition to general demographic data, clinical data including the admission Glasgow Coma Score, severity grading of SAH, hospital stay as well as the extended Glasgow Outcome Score and modified Rankin Score upon discharge, at three months and six months will be prospectively collected. The functional outcomes assessor will be an occupational therapist unaware of the subject's trial group allocation. Hypothesis: compared to patients receiving standard care for the management of aneurysmal subarachnoid hemorrhage alone (control), the additional administration of intravenous Cerebrolysin™ (intervention) within the acute phase of stroke is safe and improves functional outcome at six months after stroke.
Rational: The main danger with intracranial aneurism is its rupture conjugated with subarachnoid hemorrhage (SAH) occurrence. SAH is a severe pathology leading not only to neurological but also extra cerebral disorders. The major cause of morbidity and mortality when developing a SAH is the secondary development of a delayed cerebral ischemia consecutive to a prolonged vasospasm of cerebral arteries. The understanding of the pathophysiological mechanisms of SAH complication, such as vasospasm which is the more frequent, is essential. Vasospasm is defined as a reversible shrinking of an artery lumen diameter in the subarachnoid space, beginning generally between 4 and 12 days after the hemorrhage. Such a vasospasm could have a huge clinical impact leading to delayed neurological ischemic deficiency in 17 to 40 % of cases. Up to day, mechanisms involved in vasospasm occurrence are not well described. Disposing of well-established genetics and transcriptomics databases along with cerebral ischemia and inflammation is essential to unravel the mechanisms leading to vasospasm occurrence on SAH patients. It will enable researchers to better comprehend SAH pathology and elaborate an efficient and individualized therapeutic strategy to SAH acute phase in order to reduce the risk of vasospasm occurrence. Aims: 1) Constitute DNA and RNA Biobank via blood proofing oh SAH patients 2) Constitute a database grouping clinical and biological data 3) Look for genetic and transcriptomic early markers via genomic approaches 4) Correlate these different markers with vasospasm occurrence and clinical evolution of the patients Study: Patients inclusion will be done following their admission (D1) in the " unité de réanimation neurochirurgicale" of Pitié-Salpètrière Hospital. After obtaining of the informed consent, blood proofing will be realized daily during 12 days: one daily 2.5ml tube for the transcriptomic study and a single 10ml EDTA tube for genetic analyses. Clinical and biological follow-up will be performed as usual. 200 patients will be initially included during 2 to 3 years for the transcriptomic study of which 1/3 will develop vasospastic complication. The transcriptomic study will thus be performed by comparing patients developing or not developing this complication Expected Results: Unravel vasospasm early genetic markers.
Endothelin-1 (ET-1) seems to be involved in the pathogenesis of cerebral vasospasm after subarachnoid hemorrhage. However measurements of cerebrospinal fluid concentrations (CSF) of ET-1 are not sensitive enough to predict the development of vasospasm representing the average value throughout the entire cerebral circulation. Cerebral microdialysis (MD) is a technique able to detect molecule concentrations in a small perivascular area. The investigators performed a prospective observational clinical study to test the hypothesis that MD ET-1 concentrations should be a sensitive predictor for vasospasm. Patients with subarachnoid hemorrhage at high risk for vasospasm according to Fisher scale admitted to the ICU were consecutively studied. All patients received surgery within 48 hours from the bleeding; MD probe was placed in the area at risk for vasospasm after surgery and samples were hourly collected and analysed to measure lactate, piruvate and glutamate levels; ET-1 levels in CSF and MD fluids were measured from admission until day 7. At admission and after 7 days two angiographies were performed to detect the degree and extent of vasospasm, Transcranial Doppler and neurological evaluation were daily performed. Patients were then classified according to the presence of vasospasm in 3 groups: absence of vasospasm (NV), presence of vasospasm (CV), acute neurological deterioration (AND).
This is a prospective cohort study investigating cardiac function and cardiac biomarkers in patients with acute Aneurysmal Subarachnoid Haemorrhage (aSAH). The aims of the study are to document the incidence of myocardial dysfunction,to find the predictive factors of myocardial dysfunction, describe heart rate variability and to assess the impact of all cardiac problems on morbidity and mortality.
The purpose of this study is to investigate how dexmedetomidine affects static and dynamic autoregulation, intracranial pressure (ICP) and cerebral oxygenation in aneurysmal subarachnoid haemorrhage (SAH) patients.
The study's main objective will be to assess which effect early initiated rehabilitation has on the frequency of complications and the level of physical and cognitive functioning after aneurysmal subarachnoid hemorrhage (SAH). To this end the following aspects will be investigated: The frequency of complications (with special emphasis on pulmonary complications,thromboembolic events, cerebral vasospasm, unintended discontinuation of drains and lines) - Length of stay in hospitals and socio-economic impact - Physical and cognitive function in the early and chronic phase after SAH - Health-related quality of life and participation in society in the chronic phase
Background: Although glucose is essential to cerebral function, abundant experimental and clinical evidence demonstrates that endogenously released lactate, rather than glucose, is the preferential energy substrate for the brain in conditions of stress and acute injury. In patients with severe Traumatic Brain Injury (TBI) and aneurysmal subarachnoid hemorrhage (SAH) monitored with cerebral microdialysis and brain tissue oxygen (PbtO2), our preliminary data show that increased brain extracellular lactate is frequently observed. Our findings indicate that elevated brain lactate more often occurs in the absence of brain hypoxia/ischemia and is mainly the consequence of increased cerebral glycolysis, i.e. it occurs in association with high extracellular pyruvate. These data suggest that the primary source of elevated lactate is activated glycolysis and strongly support the concept that endogenously released lactate can be utilized by the injured human brain as energy substrate. They prompt further investigation to examine whether exogenous lactate supplementation can be a valuable neuroprotective strategy after TBI or SAH. Indeed, in animal models of brain injury, administration of exogenous lactate improves neuronal and cognitive recovery. Hypothesis: The investigators test the hypothesis that lactate therapy, administered during the acute phase of TBI or SAH, might exercise neuroprotective actions by restoring brain energetics and improving brain tissue PO2 and cerebral blood flow (CBF). Aim of the study: The aim of this single-center study is to examine the effect of sodium lactate infusion on cerebral extracellular metabolites, brain tissue PO2 and cerebral blood flow, measured with CT perfusion and transcranial doppler (TCD). Design: Prospective phase II interventional study examining the effect of a continuous 3-6 hours infusion of sodium lactate (20-40 µmol/kg/min), administered within 48 hours from TBI or SAH, on cerebral extracellular glucose, pyruvate, glutamate, glycerol, PbtO2 and CBF.
The 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors, known as statins, have recently been demonstrated to improve endothelial function. Additionally, numerous studies have shown statins as having antiinflammatory and cell-signaling effects together with a selective up-regulation of the eNOS activity. These findings are of potential benefit for the prevention of cerebral vasospasm after a aneurysmal subarachnoid hemorrhage. Indeed, one of the possible mechanisms for this vasospasm is the eNOS depletion or even increase of eNOS expression after the hemorrhage. The purpose of this study is to observe the immediate effect of statins after aneurysmal subarachnoid hemorrhage (aSAH) in cerebral vasospasm and outcome at one year.
HYBRID study is prospective randomized open label controlled multi center trial, to compare Hydrocoil and bare platinum coil for recanalization after endovascular treatment of intracranial aneurysms.
The purpose of this study is to determine whether prostacyclin is effective in prevention of cerebral vasospasm in patients with subarachnoidal hemorrhage (SAH).