Active clinical trials for "Hydrocephalus"

Neurofilament Light Chain Protein (NfL) has been found by many studies as a sensitive biomarker of neuronal damage from several reasons, e.g. neurodegenerative diseases (Alzheimer's disease, Multiple Sclerosis, etc.), inflamation (HIV) or trauma. Its role as biomarker thus offers a possibility to predict and manage diseases associated with neuronal damage. Therefore our aim is to investigate the changes in level of NfL in hydrocephalus and to find its role in management of treatment in hydrocephalus.

Hydrocephalus is a potentially debilitating neurological condition that primarily affects babies under a year of age and has traditionally been treated by inserting a shunt between the brain and the abdomen. A newer endoscopic procedure offers hope of shunt- free treatment that may reduce complications over a child's life, but it is not clear if the endoscopic procedure results in similar intellectual outcome as shunt. Therefore, the investigators propose a randomized trial to compare intellectual outcome and brain structural integrity between these two treatments, to help families make the best treatment decision for their baby.

This study aims to assess the feasibility to perform a fetoscopic prenatal repair of an open neural tube defect, and secondly to assess the maternal, fetal and neonatal outcomes.

The eShunt™ System is a minimally invasive method of treating communicating hydrocephalus. The eShunt System includes a proprietary eShunt Delivery System and the eShunt Implant, a permanent implant deployed in a minimally invasive, neuro-interventional procedure. The eShunt Implant is designed to drain excess cerebrospinal fluid (CSF) from the intracranial subarachnoid space (SAS) into the venous system.

A randomized, single blind, parallel controlled, multicenter clinical study was performed in which patients who had undergone a cerebrospinal fluid to peritoneal shunt that met the criteria were divided into two groups (test and control) in a 1:1 ratio, with the test group applied disinfection by the "three-step sterilization method" and completed the procedure, and the control group underwent the same surgical procedure according to the routine aseptic disinfection procedure, relevant literatures were reviewed and the previous ones in our hospital were summarized, it is intended to conduct a one-year clinical observation of the two groups, to compare the perioperative and long-term infection incidence of the two groups and evaluate them comprehensively, to evaluate whether the "three-step sterilization method" disinfected patients have reduced perioperative and long term infection risk after surgery compared with previous surgery with routine disinfection procedure, and to evaluate their effectiveness.

After acute brain injury or haemorrhagic stroke, hydrocephalus might participate to consciousness disorder. We plan to explore whether ventriculoperitoneal shunt insertion improves consciousness in patients with vegetative or minimally conscious state and hydrocephalus. Patients with acute brain injury, persistent consciousness disorder and hydrocephalus will be shunted with a detailed follow-up at 3 months combining: clinical evaluation, FluoroDésoxyGlucose positron emission tomography imaging, high density electroencephalogram, electrocardiogram Holter and sympathetic activity by microneurography.

This study is being conducted in randomized controlled trial design to determine the effect of the education given to the mothers of children with hydrocephalus on caregiver burden and anxiety levels.

Idiopathic normal pressure hydrocephalus (=iNPH) is a condition with disturbed circulation of cerebrospinal fluid (=CSF) causing symptoms such as balance and gait disorders, urinary incontinence and cognitive impairment in patients with cerebral ventricular dilation. The exact incidence is unknown but has been estimated at about 8.9% of the population over the age of 80 and the incidence is estimated to increase with an aging population. The symptoms can be temporarily improved by draining cerebrospinal fluid and so-called shunting (surgery with diversion of cerebrospinal fluid from the brain to the abdominal cavity). The symptoms and pathophysiology of iNPH are poorly described as well as the protein distribution in cerebrospinal fluid (proteomics) of the disease. There is also a need for improved diagnostical and prognostical tools that can guide in patient selection for surgery. The radiological tools in evaluating the disease and it´s progression need to be improved. There is a shunt valve (Codman Certas Plus) used since 2015 that is widely used in clinical use and is well studied in research laboratories but little in clinical studies. The project aims to, before and after surgery, on patients with iNPH who will undergo investigation and shunting with Certas Plus at our department and in comparison with healthy controls: 1. Apply and evaluate a novel method to determine the volume of circulating CSF (volumetry). 2. Study the correlation between changes in volumetry and clinical outcome 3. Study NPH patients' distribution of proteins in cerebrospinal fluid and their change over time after shunting. 4. Evaluate the efficacy and functions of the Certas Plus valve. In this way, the investigators hope to find increased knowledge about the NPH disease and its pathophysiology as well as useful instruments that can both predict the probability for a patient to be improved by a shunt operation and determine if a shunt has stopped working and thus be able to avoid unnecessary risky operations.

Rhaeos, Inc. is initially targeting hydrocephalus, a life threatening condition caused by an abnormal accumulation of cerebrospinal fluid (CSF). Implantable shunts, the gold standard treatment, often fail, leading to multiple trips to the emergency room and repeat surgeries. There is no technology available today that can easily assess CSF flow in shunts wirelessly, bedside, and without capital equipment until now. FlowSense, is a wireless, noninvasive thermal flow sensor that can be mounted on a patient's neck overlying the shunt to detect the presence and magnitude of CSF. Similar in size to a bandage, it is composed of soft, silicone with no hard edges. Data is wirelessly transmitted to a custom designed mobile app. With FlowSense, monitoring of shunt function can occur in clinics, in-patient settings, and emergency departments, thereby reducing unnecessary imaging, hospital length of stay, and readmission costs.

Hydrocephalus is characterized by excessive accumulation of cerebrospinal fluid (CSF) in the ventricles of the brain. One of the forms of hydrocephalus is called "normal pressure", although one of the main signs is precisely an alteration of the intracranial pressure (ICP), it is here called active hydrocephalus (HA). Although MRI is the reference radiological modality for the characterization of HA. The Evan's and DESH index are radiological diagnostic criteria based on the dilation and morphology of the CSF compartments. These morphological indices remain insensitive and specific. In recent years, advances in Phase Contrast (MRI-PC) and Diffusion (MRI-DTI) MRI have generated new biomarkers of brain viability. The aim of this study is to characterize by MRI the impact of hydrocephalus on brain fluids and tissues.