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Filter by:This study aims to investigate the relationship between intracranial pressure (ICP) and aqueous outflow (the flow of the eye's internal fluid out of the eye), in patients with increased intracranial pressure (idiopathic intracranial hypertension (IIH)). Through observing changes in aqueous outflow facility in patients scheduled for lumbar Puncture (LP) as part of their routine care the objectives we aim to answer include: - Investigating the effect of lumbar puncture induced reduction in ICP on patients with known or suspected IIH, compared to control patients, who will be receiving LP for reasons not pertaining to high pressure. - Comparing pre lumbar puncture aqueous outflow facility between patients with idiopathic intracranial hypertension and control patients. Outside of the standard care provided for these patients as part of their scheduled lumbar puncture, they will have measurements of their eye taken before and after their lumbar puncture.
This study aims to investigate the safety and efficacy of semaglutide in patients with Idiopathic intracranial hypertension.
Aim of the study : 1. to determine the response to each treatment plan. 2. to determine when to choose specific treatment method. 3. to determine complication of each type of treatment method
Idiopathic intracranial hypertension (IIH) is a condition characterized by an increase in intracranial pressure (ICP), papilledema with a risk of permanent visual loss, and severe headaches that profoundly affect quality of life. To date the exact pathophysiology of IIH remains unknown. IIH is considered a complex neurometabolic and neuroendocrine disorder, favored by female gender, and obesity. In the majority of patients (80% of the cases) IIH is associated with obstruction of cerebral venous drainage with stenosis of the transverse sinus. This stenosis may be the main underlying cause in the so-called "venogenic" form of IIH. Equally, in the absence of a stenosis, obstruction may occur when otherwise normal venous sinuses are compressed by the increased ICP, the so-called "non-venogenic" form of IIH. An innovative treatment of IIH with associated venous stenosis includes stenting of the transverse sinus stenosis. This strategy may allow resolution of papilledema and ICP reduction rates up to 80%. Although the pathogenesis of IIH is still poorly understood, inflammatory mechanisms, autoimmune reactions, and hormonal abnormalities of notably androgens, have been proposed to contribute to its pathophysiology. The function of the blood-brain barrier (BBB) has been studied by determining the prevalence of extravasation of endogenous proteins such as fibrinogen. A growing body of the literature shows a correlation between increased ICP and metabolic/hormonal changes. The improvement of IIH treated with acetazolamide and/or stenting appears to correlate with the reduction of ICP. Yet the association of this reduction with metabolic changes at the peripheral and central blood level as well as the CSF remains unclear. The search for specific inflammatory, immunological and hormonal biomarkers in patients with IIH and their variation in relation to the ICP should provide a better understanding of its etiology.
50 patients with verified new-onset Idiopathic Intracranial Hypertension are randomly allocated to standard weight management (dietician counselling) or trial intervention consisting of subcutaneous injections with Semaglutide for 10 months combined, in the initial 8 weeks following diagnosis, with a Very Low Calorie-Diet (max 800 kcal/day)
In the brain and its borders, blood vessels coexist with lymphatic vessels exclusively in the dura mater, the outermost layer of meninges. Dural lymphatics are present in various vertebrate species, including humans, and a cluster of experimental studies in the mouse strongly suggest their relevance in the pathophysiology of chronic and acute neurological disorders in humans. Demonstrating this assumption is however still at stake and the lymphatic regulatory mechanisms involved remain poorly characterized. Our main objective is to assess dural lymphatics contribution to the pathophysiology of a rare neurological disorder: idiopathic intracranial hypertension (IIH). In IIH patients, intracranial hypertension causes severe headache and visual loss and is associated with a stenosis of dural sinuses and abnormal retention of fluids in the central nervous system. Angioplasty treatment by stent placement into venous sinuses is frequently followed by recurrent stenosis suggesting that, in addition to the blood vessels, the duro-lymphatic environment contributes to disease progression. Several studies have found hot spots of lymphatic uptake at confluence points between cerebral veins and dural sinuses. Based on this premise, the investigators predict a causal link between lymphatic and venous behavior around dural sinuses and the remodeling of dural lymphatics in neurovascular conditions such as IIH. Our approach will combine radiological observations from human patients with experimental analyses in mouse models. The investigators have recently developed a technique of high resolution vessel wall imaging to explore and compare the lymphatic networks between individuals. This advanced MR-imaging technique has been validated through a translational study comparing the lymphatic networks in mice and humans (Jacob et al. 2022, JExpMed). Using this tool, the investigators aim to monitor dural lymphatic and sinus wall abnormalities in patients with IIH. In this view, cohorts of IIH patients and controls without neurological disorders (n = 20/cohort) will be scanned by MRI to perform high resolution vessel wall imaging of the dural lymphatics, sinus and cerebral veins.
The aim of this study is to assess the efficacy of stent implantation versus medical therapy on idiopathic intracranial hypertension with venous sinus stenosis.
Aim of the study is to high lighten the rule of CSF biomarkers in early diagnosis of IIH and in follow up to reach to a definite clinically based decision if this patient will improved on medical treatment or that patient is in need for surgical intervention.
Post-Market Clinical Follow-up Registry of Patients with CODMAN CERTAS Plus Programmable Valves.
Idiopathic intracranial hypertension (IIH) has significant associated morbidity and reduced quality of life. There is a significant risk of visual loss and patients also typically suffer with chronic disabling headaches. This trial has been designed to evaluate the efficacy and safety of a new formulation of exenatide (Presendin) in the reduction of intracranial pressure (ICP) in patients with IIH.