View clinical trials related to Hydrocephalus.
Filter by:Acute hydrocephalus is a common complication following subarachnoid hemorrhage (SAH). Early and emergency insertion of external ventricular drain (EVD) is standard treatment of acute post-SAH hydrocephalus. According to the high risk of infection associated with EVD, the study evaluates the outcome of early EVD conversion to ventriculoperitoneal shunt (VPS) in poor-grade SAH patients.
Research Purpose: This study aimed to continue to evaluate safety information from subjects implanted with a catheter (trade name: Bactiseal) produced by Codman & Shurtleff, Inc. of the United States. Device safety would be assessed based on all the adverse events that occurred within one year after the subjects implanted the catheter.
This study aimed to collect safety information from subjects implanted with a shunt system (trade name: Hakim Shunt Programmable System) produced by Codman & Shurtleff, Inc. of the United States. Device safety would be assessed based on all the adverse events that occurred within one year after the subjects implanted the catheter.
Post-Market Clinical Follow-up Registry of Patients with CODMAN CERTAS Plus Programmable Valves.
The objective of this study is to compare the effectiveness of a personalized patient education program to the current hospital education and evaluate its impact using patient satisfaction scores. The investigators hypothesize that a personalized patient education intervention will increase patient's understanding of their diagnosis and satisfaction with the care as reflected in the survey results.
Pupillar diameter variation to predict success or failure of external ventricular derivation clamping. Pupillometry utilisation as a diagnostic tool in external ventricular clamping test in neurological ICU should improve patients care in several ways : - earlier use of ventriculo-peritoneal or ventriculo-atrial shunts to shorten the external ventricular treatment duration and thus reduce risks of infection and hospital stay duration - limit the medical imagery prescription and radiation exposition - avoid neurological deterioration linked to the external ventricular drain clamping in case of the pupillometric parameters variation would be earlier than clinical signs
This research is about the use of subgaleal drains to prevent accumulation of blood under the skin in patients undergoing surgery to remove part of the skull(craniectomy) and its associated complications. There have been early research that shows usage of subgaleal drains maybe related to increase in complication rates after craniectomy. These complications include hydrocephalus (accumulation of fluid in the brain), new hemorrhages, infection and low blood pressure. The investigators are performing this research to determine which type of subgaleal drains would produce the least complications. With this knowledge, the investigators would be able to reduce the amount of complications for future patients that undergo surgery to remove part of the skull. The purpose of this study is to determine the rate of complications in the 3 different groups of patients using the different types of drains under the skin in surgeries that involve removal of part of the skull. All participants will undergo the required surgery to remove part of the skull (craniectomy). Participants will then be randomly assigned to either one of 3 groups which are the vacuum drain group, passive drain group or no drain group.Participants in the vacuum drain group will have vacuum drains inserted during the closing stage of the surgery. Participants in the passive drain group will have passive drains inserted during the closing stage of the surgery. Participants in the no drain group will have a drain inserted during the closing stage of the procedure but the drain will remained closed. Data will then be collected and analysed to determine if the type of drains influence the rate of complications in craniectomy
This is a pilot study examining the feasibility and efficacy of using Apple iPad applications ("apps") during therapy interventions that target visual motor, visual attention, and visual-spatial reasoning skills in school age children who were previously treated surgically for hydrocephalus. Each subject will participate in an initial assessment and baseline MRI, followed by 6-weeks of iPad app-based interventions, and finally a follow-up assessment and a follow-up MRI.
The purpose of this study is to compare the results of combining two anesthetic medications (dexmedetomidine and propofol) in low doses with a standard dose of a single drug that is commonly used to provide sedation/anesthesia for MRI studies in young children (propofol). The drugs used for the MRI scan in this study will be chosen randomly. Half the patients will receive small doses of propofol and dexmedetomidine. The other half will receive propofol administered constantly throughout the scan. Other drugs that may be used include sevoflurane and nitrous oxide at the start of the sedation (for placing an intravenous), lidocaine (to reduce the pain of propofol injection) and glycopyrrolate (to prevent the heart rate from decreasing too low. The investigators will record 5 additional blood pressures and heart rates. If additional medications are required to complete the scan, the investigators will administer whatever is necessary. At the end of the study, the investigators will have an observer record the time it takes for participants to spontaneously open eyes , to be able to drink liquids and/or eat and to behave as before the study. Also, it is very important that the investigators find out from participants about changes in behavior, or if eating or sleeping habits were unusual following completion of the study. For that reason, the investigators will call participants in a day or so following the MRI scan. The investigators expect to recruit 40 children between the ages of 12 and 72 months for the study and hope to have the study completed in December 2018.
There have been reports in the past of using thermal cameras to demonstrate flow in the tubing as a surrogate of proper shunt function. This was shown to have almost 90% accuracy at determining proper functioning but required expensive equipment that was not universally available. There is now smart phone based thermal camera technology (Flir One: http://www.flir.com/flirone/) that could make this technique widely available for health care use. The goal of the study is to determine if this device can demonstrate flow in the distal tubing of a VP shunt.