View clinical trials related to Hydrocephalus.
Filter by:This study has been added as a sub study to the Simulation Training for Emergency Department Imaging 2 study (ClinicalTrials.gov ID NCT05427838). The purpose of the study is to assess the impact of an Artificial Intelligence (AI) tool called qER 2.0 EU on the performance of readers, including general radiologists, emergency medicine clinicians, and radiographers, in interpreting non-contrast CT head scans. The study aims to evaluate the changes in accuracy, review time, and diagnostic confidence when using the AI tool. It also seeks to provide evidence on the diagnostic performance of the AI tool and its potential to improve efficiency and patient care in the context of the National Health Service (NHS). The study will use a dataset of 150 CT head scans, including both control cases and abnormal cases with specific abnormalities. The results of this study will inform larger follow-up studies in real-life Emergency Department (ED) settings.
This study aims to characterize dynamic stability disorders in two conditions mainly affecting the elderly and with similar walking deficits: hydrocephalus at normal pressure and Parkinson's disease, to provide the most relevant monitoring criteria in usual care.
Normal pressure hydrocephalus (NPH) can cause a type of dementia. However, this type of dementia is the only one that is reversible. To treat this dementia it is necessary to evacuate the accumulation of CSF from the brain to another body cavity using a device called a shunt. But the implantation of this shunt is only effective when the cause of the pathology is an alteration of the normal circulation of the CSF. To diagnose these patients, morphological MRI and lumbar puncture are standard approaches used but remain perfectible in diagnostic terms. The main objective is to build a new model of the interaction of intracranial pressures and fluids in order to obtain a new parameter allowing to obtain information on the cerebral biomechanics.
Part 1 Patients with idiopathic Normal Pressure Hydrocephalus (iNPH) have variable disabilities regarding gait, balance, cognition and continence. Analysis of the gait pattern in iNPH has an important part in clinical diagnosing and evaluation of outcome after shunt surgery. The gait pattern is only partly explained and more detailed information about gait in iNPH is needed in relation with ordinary clinical measurements. Part 2 Approximately 70 % of patients with iNPH improve after shunt surgery. Commonly different grading scales and measurements regarding functions are used in the evaluation. To some extent, patients improve in Quality of life after surgery (QoL). In this study, the patient´s own grading of improvements in relation with QoL, sense of coherence (SOC) and symptoms of depression and anxiety are analyzed.
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.
This will be an observational study looking at clinical and biomarker characteristics in patients with Parkinson's Disease (PD), Multiple System Atrophy (MSA), Rapid Eye Movement Sleep Behavior Disorder (RBD), Normal Pressure Hydrocephalus and matched controls. Saliva, plasma, serum, urine, and cerebrospinal fluid (CSF) samples will be collected from participants.
INPH is a chronic, progressive disease characterised by enlarged ventricles in the absence of elevated intracranial pressure. Patients often present with the Hakim triad comprising gait disturbance, dementia and urinary incontinence. Treatment consists of ventriculoperitoneal (VP) shunting reducing the cerebrospinal fluid (CSF) volume in the central nervous system (CNS); a generally safe and well tolerated procedure nevertheless invasive in nature and associated with surgical risk. The currently used diagnostic algorithms to predict surgery outcome by testing patients before and after a diagnostic spinal tap temporarily reducing the CSF volume in the CNS are of wide variability and limited validity. Developing measures to accurately diagnose and select patients for intervention is thus of great importance. The objective of this study is to define and validate a diagnostic algorithm for the selection of patients with symptoms compatible with iNPH for shunt surgery.
The purpose of the study is to compare the survival time (time to first shunt failure) of ventriculoperitoneal (VP) shunts inserted through an anterior entry site with those inserted through a posterior entry site in children. Shunt entry site is the location on the head that the shunt catheter enters the brain on its path to the fluid-filled spaces in the brain, the ventricles. Entry sites can be anterior or posterior.
The purpose of this project is to assess the utility of a new magnetic resonance technique called magnetic resonance elastography (MRE) in the non-invasive diagnosis of normal pressure hydrocephalus. The investigators hypothesize that MRE produces a unique imaging signature for hydrocephalus that distinguishes the disease from the normal (non-hydrocephalic) but atrophied brain, a distinction not possible with conventional MR imaging studies that are presently available.
Two treatment options exist for infant patients with hydrocephalus. Most patients are treated with a surgical procedure in which a shunt is inserted into the brain and abdomen. In recent years, however, another treatment has developed called Endoscopic Third Ventriculostomy (ETV) with Choroid Plexus Cauterization (ETV/CPC).This research study is being done to measure the results of these procedures in children less than six months of age who have hydrocephalus as the result of a brain infection, called post-infectious hydrocephalus, or PIH. This study will evaluate patients in more detail to measure brain growth and development.