View clinical trials related to Hydrocephalus, Normal Pressure.
Filter by:The aim of this study is to determine the clinical spectrum and natural progression of idiopathic normal pressure hydrocephalus (iNPH ) and related disorders in a prospective single center study, identify digital, imaging and molecular biomarkers that can assist in diagnosis and therapy development and study the etiology and molecular mechanisms of these diseases.
The study aims to estimate Normal Pressure Hydrocephalus (NPH) prevalence and evaluate health equity gaps in Baltimore and Maryland based on zip codes and race, with a focus on the Black community. Interventions will include educational elements about NPH and three layers targeting patients, Primary Care Providers, and community health workers to enhance care access. Short-term outcomes will measure referrals to specialists, while long-term outcomes will assess healthcare utilization. The study aims to identify and reduce racial disparities in NPH care access, informing intervention strategies for NPH and other surgical areas.
The investigators hypothesize that the Q-collar compression on bilateral internal jugular veins of patients with low pressure hydrocephalus will decrease venous drainage from the intracranial space, therefore increasing intracranial volume, decreasing brain compliance, and increasing CSF drainage through the shunt. This should improve persistent hydrocephalus symptoms and demonstrate improved ventricular drainage on imaging with decompressed ventricles.
Normal pressure hydrocephalus (NPH) is a neurodegenerative disease of unclear etiology characterized by a clinical trias named after the neurosurgeon Hakim. It includes cognitive impairment (dementia), gait disturbance, and urinary incontinence. These symptoms, which frequently occur in the elderly population, often overlap with the symptoms of "other" neurodegenerative diseases, especially Alzheimer's disease and other (pre)senile dementias. To distinguishing NPH from "other" dementias is crucial in determining whether a patient will benefit from a surgical procedure (ventriculoperitoneal shunt placement) or not. At the same time, the options for assessing the patient's condition's progression and distinguishing between the progression of neurodegeneration in a broader sense or malfunction of the drainage system are very limited. Therefore, the role of a biomarker that could meet these expectations mentioned above is highly desirable.
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.
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
Normal Pressure Hydrocephalus (NPH) is a clinical condition that induces cognitive deterioration that can be reverted, at least in part, by introducing ventricular-peritoneal diversion controlled by a miniaturized valve system. Mechanisms involved in such an improvement of cognitive function after liquor diversion are unknown. Oxysterols are a family of cholesterol-related compounds having diverse biological functions. Among others, they are involved in cholesterol homeostasis in the brain and are detectable in liquor, potentially impacting neurodegeneration. NPH is an ideal clinical model to study oxysterol distribution in liquor before and after ventricular-peritoneal diversion.
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.