View clinical trials related to Hydrocephalus, Normal Pressure.
Filter by:To investigate if progression from prodromal into symptomatic NPH can be predicted from advanced neuroimaging, biomarkers in cerebrospinal fluid (CSF) and plasma and investigate the unknown mechanisms causing deterioration by investigating longitudinal changes in the above-mentioned variables. Three different cohorts with both asymptomatic and symptomatic patients as well as healthy controls will be investigated over time, both without intervention and before and after shunt surgery.
The goal of this study is to investigate effect of exercise program on balance, gait and performance in patients with normal pressure hydrocephalus applied with lumbar puncture. The main question it aims to answer are: - Home based exercise program effective on balance, gait and performance - Telerehabilitation exercise program effective on balance, gait and performance Researchers will compare home based exercise group, telerehabilitation group and control group to see if difference in terms of balance, gait and performance
Post-Market Clinical Follow-up Registry of Patients with CODMAN CERTAS Plus Programmable Valves.
The eShunt System includes proprietary delivery componentry and the eShunt Implant, a permanent implant deployed in a minimally invasive, neurointerventional procedure. The eShunt Implant is designed to mimic the function of the arachnoid granulations by draining excess cerebrospinal fluid (CSF) from the intracranial subarachnoid space (SAS) into the venous system.
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 System is intended to shunt cerebrospinal fluid from the intracranial subarachnoid space to the venous system for the treatment of patients with normal pressure hydrocephalus, reducing disability due to symptoms including one or more of gait disturbance, cognitive dysfunction and urinary incontinence.
The Placebo-Controlled Efficacy in Idiopathic Normal Pressure Hydrocephalus (iNPH) Shunting (PENS) trial is a multi-center blinded, randomized, placebo-controlled design investigation of cerebrospinal fluid (CSF) shunt surgery to study the shunt efficacy in iNPH patients.
The research is designed to study the prognostic factors of ventriculoperitoneal (VP) shunt for iNPH by multi-omics research
A pharmacological treatment to patients with normal pressure hydrocephalus (NPH) is missing. The aim is to investigate if acetazolamide given to patients with NPH improves gait function and study the pathophysiological mechanisms leading to reduced symptoms. Patients will be randomized to acetazolamide or placebo and duration of treatment will be from diagnosis to the day of shunt surgery. Target dose is 500 mg/day. Study design is a double-blind randomized controlled trial and the plan is to include 42-50 patients. The study is investigator-initiated without financial sponsorship from the industry.
LiNPH is a prospective single center clinical and radiological study.
Normal-pressure hydrocephalus is associated with increases in the intracranial pressure during the night sleep. Sleep apnea also increases the intracranial pressure during the apneic spells. When patients are operated the distal part of the shunt is inserted inside the abdominal cavity, which pressure also increases during the sleep apnea episodes. this is particularly important considering that the recumbent position used to sleep further increases the intraabdominal pressure and that impairs the CSF drainage through the shunt system. The purpose of this study is to analyze the intracranial and intraabdominal pressures during the sleep, particularly during the sleep apnea episodes to see which shunt should be used, to which cavity should be drained (peritoneum or heart) and if correcting the sleep apnea has some positive result on the hydrocephalus symptoms.