Molar Sodium Lactate Filling in Severe Meningeal Hemorrhage
Subarachnoid HemorrhageAneurysmalSubarachnoid hemorrhage by aneurysmal rupture is a serious condition associated with a high mortality rate. Among the complications presented by these patients, vasospasm is one of the main causes of secondary aggravation, in particular the appearance of delayed neurological deficits following the induced cerebral ischemia. Classically occurring between the 4th and 12th day, with a peak on D7, its prevention is currently often ineffective. In recent years, many studies have shown that sodium lactate could be an interesting product for neuroprotection. In addition to an anti-osmotic effect that has been demonstrated by our team in the context of post-traumatic intracranial hypertension, a metabolic action has also been observed in periods of metabolic attacks induced by brain attacks. Recently, a vasodilatory action of sodium lactate has been observed from an experimental and clinical point of view. The purpose of this work is to observe the effect of sodium lactate, compared to placebo, on cerebral hemodynamics measured by perfusion CT (Mean Transit Time MTT) in a population of patients with hemorrhage under the arachnoid. This work is the preliminary work of a study that will investigate the potential preventive protective effect of sodium lactate on the incidence of vasospasm.
IMPROVE Stroke Care- Developing and Optimizing Regional Systems of Stroke Care
Acute StrokeIntracranial Hemorrhages1 moreThe purpose of this program is to develop a regional integrated stroke system that identifies, classifies, and treats patients with acute ischemic stroke more rapidly and effectively with reperfusion therapy.
Brain Aneurysms: Utility of Cisternal Urokinase Irrigation
Subarachnoid HemorrhageAneurysmal3 moreDespite the efforts made in its treatment, aneurysmal subarachnoid haemorrhage continues to induce high mortality and morbidity rates. Today there are treatment protocols in all hospitals. The vast majority prefer, whenever possible, the endovascular route, given its lesser aggressiveness and morbidity. Although embolization prevents aneurysm' rebleeding, it does remove the subarachnoid blood clot. Therefore, it does not modify the evolution, incidence and severity of vasospasm. The idea is to carry out a 10-year retrospective study classifying patients into five groups based on the type of treatment received, analyzing the results' differences. The aim is to improve what is done as much as possible and to be able to propose potential areas for improvement. Besides, this study will be the basis of a future prospective study, prepared without the current one's biases and errors.
The Pathogenesis of Terson Syndrome and the Role of CSF Tau / Amyloid-ß 40 and 42 in Patients With...
Subarachnoid HemorrhageTerson Syndrome1 moreProspective clinical study to investigate the pathogenesis of Terson syndrome and the prognostic value of the CSF-biomarkers tau-protein and amyloid-β 40 and 42 in patients with aneurysmatic subarachnoid hemorrhage. Our two hypotheses are as follows: The incidence of Terson syndrome correlates with the initial intracranial opening pressure (measured with extra ventricular drain) The CSF-biomarkers correlate with the outcome assessed at discharge, 3-, 6- and 12-months postictally using Glasgow-Outcome-Scale-Extended (GOSE) and Euro-Qol-5 as well as with complications related to aneurysmatic subarachnoid hemorrhage such as cerebral vasospasm, delayed cerebral ischemia and re-bleed.
Lycopene Following Aneurysmal Subarachnoid Haemorrhage
Subarachnoid HemorrhageAneurysmIn this study the investigators wish to explore the potential neuroprotective effects of acute oral supplementation of lycopene, a natural anti-oxidant derived from tomatoes, on cerebral vasospasm and autoregulation, and examine whether any improvements translate into a reduction of biochemical markers of vascular injury and inflammation a decrease in the prevalence of secondary strokes following subarachnoid haemorrhage.
Electrolyte and Fluid Disturbances in Subarachnoid Hemorrhage and Traumatic Brain Injury
Electrolyte DisturbancesSubarachnoid Hemorrhage2 moreDuring the course of their acute illness patients with subarachnoid hemorrhage and severe traumatic brain injury often develop disturbances in their fluid balance and electrolyte homeostasis. These shifts are associated with worse outcome and increased morbidity. The aim of this observational study is to systematically analyze the incidence, characteristics, potential diagnostic markers and predisposing factors of such disturbances. The investigators hypothesize that many disturbances cannot be classified with a standard diagnostic approach and that variable fluid management contributes to their pathophysiology. Patients will be closely monitored clinically and the exact fluid and electrolyte balances will be recorded. Treatment decisions are within the bedside physicians responsibility. Baseline fluid management is standardised. No interventions are planned. The observation period equal the duration of ICU stay.
Intracranial PrEssure Time dOse (ImPETO)
Intracranial HypertensionTraumatic Brain Injury2 moreThe new Integra CereLink ICP monitor integrate the possibility of recording and displaying continuously the AUC (Pressure Time Dose, PTD) and other ICP derived variables and provide the possibility of evaluating the utility of this information at the bedside. It offers the opportunity to test in a standardized way the clinical value of the PTD computation in this setting. Therefore, this study aims to test clinically if PTD recorded continuously is associated to patients' outcome and to identify a threshold of PTD associated with the transition from good to negative outcomes.
The Effectiveness and Safety of Human Lumbar Puncture Assist Device (LPat)
MeningitisEncephalitis4 moreThe purpose of this study is to proof and investigate the effectiveness and safety of the invented device named "Human Lumbar Puncture Assist Device (LPat)" as an assist tool to be utilized to improve the success rate of performing lumbar puncture (LP), avoid side effects from multiple punctures, avoid excess radiation if the LP need to be done under fluoroscopy, and need to obtain none traumatic tap for better CSF analysis.
Aneurysmal Subarachnoid Hemorrhage and Superior Mesenteric Artery Flow Study
Intracranial AneurysmThe purpose of this research study is to determine if the diameter and flow of the superior mesenteric artery in patients with aneurysmal subarachnoid hemorrhage undergoing hypertensive therapy for cerebral artery vasospasm are effected enough to justify withholding enteral nutrition.
Transcriptomic Signature of Vasospasm Consecutive to Sub-arachnoid Aneurismal Hemorrhage
Aneurysmal Subarachnoid HemorrhageVasospasmRational: 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.