View clinical trials related to Cerebrospinal Fluid Leak.
Filter by:The goal of this randomized controlled trial (RCT) is to compare the efficacy of CT fluoroscopy-guided targeted epidural patching for treatment of imaging-confirmed spinal CSF leaks to that of a simulated procedure without patching material in patients with spontaneous intracranial hypotension.
During labor and delivery, pregnant women may choose to receive pain relief called epidural analgesia, which is the delivery of a numbing agent through the back and into a body space around the spinal column. This numbs the area of the stomach and the pelvis. Typically the numbing agent is lidocaine, which is a local anesthetic like your dentist uses. Some times the numbing agent is combined with another medication that causes drowsiness and relieves pain called a narcotic. One of the risks associated with having this kind of pain relief is unintentional puncture of a sheath of tissue that surrounds and protects the spinal cord when inserting the needle. This sheath is called the dura. This would cause the fluid surrounding the spinal cord to leak out and this would cause a headache. This headache is called a post-dural puncture headache [PDPH]. The headache can be mild or severe. Rarely, PDPH can be serious and cause bleeding or small clots in the brain and damage to nerves that come out of the brain. The purpose of this study is to test the use of a technique that uses a hollow cotton swab [no needles] to numb a nerve cell cluster that sits at the very back of the nasal cavity. The anatomical name for this nerve cell cluster is the sphenopalatine ganglion. This has been done before at BJH and other hospitals with positive results, but no formal studies have been conducted here. Also, the sphenopalatine ganglion [SPG] has been the treatment target for other kinds of headaches. To numb the SPG, a hollow tip cotton swab [like a long Q-Tip] is inserted through the nose to the back of the nasal cavity and a solution of numbing agent is slowly pumped through the hollow Q-tip. This study will include a group that will receive a salt solution through the swab instead of a numbing agent. Subjects will be offered BJH standard care for their headache if they do not have relief from the study procedures. Standard care would be decided by their treating physician and may include oral pain medications and/or medications like ibuprofen [Motrin] or they could have a procedure called an epidural blood patch. This is performed by injecting a small amount of the patient's own blood into the areas of the spinal column where the original epidural anesthesia was injected in order to "patch" the leaks in the dura.
Patients with persistent symptoms of cerebrospinal-fluid leakage (positional headache, photophobia, nausea and vomiting, clear drainage from the wound, fluctuant subcutaneous wound) after a primary repair should be considered for revision surgery to avoid potentially serious complications including CSF (cerebro spinal fluid) fistula formation. Prolonged bed rest immediatel after reapir of an ID () incidental durotomy) is widely accepted and frequently applied. current literature provides supporting retrospective evidence that prolonged bed rest may not be required after watertight closure of dural tears. The purpose of this study is to further investigate the impact of prolonged bed rest on the need for early reoperation following primary repair of an ID after lumbar spinal surgery. The primary endpoint of this study is the difference in reoperation rate between the two study groups to further investigate if either one or the other postoperative mobilisation regimen provides a significant benefit in terms of persistent dural leakage.
The purpose of this research is to test the use of Acetazolamide in preventing post-operative cerebrospinal fluid leak in patients having endoscopic skull base surgery (it is a surgery performed through the nose and sinus).
The objective of this study is to evaluate the safety and efficacy of FS VH S/D 500 s-apr for use as an adjunct to sutured dural repair in cranial surgery.
Radionuclide cisternography (RC) is a nuclear medicine examination based on intrathecal injection of [111In]diethylenetriaminepentaacetic acid ([111In]DTPA). It is prescribed for two recommendations: detection of cerebrospinal fluid (CSF) leak/fistula and diagnosis of normal pressure hydrocephalus. In the search part of CSF leak/fistula, RC offers the benefit of a 24-hour study of CSF unlike other reference tests. In addition to SPECT/CT imaging, the radiopharmacist performs sampling in nasal cavities and throat of the patient to collect a possible flow of CSF. These samples are analysed by radioactivity measurements and bring an added value to the exam. The interest of this examination for management of CSF leak/fistula remains unclear. The aim of this study is to identify and analyse results of all RC examinations performed since 2005 in the Nuclear Medicine department of the Neurological Hospital. The full analysis of patients will allow discussing the role of RC in management of CSF leak/fistulae in clinical practice.
The purpose of this Phase IIB randomized controlled trial is to evaluate the safety and efficacy of CSFD and to provide a preliminary clinical efficacy evaluation of the combination of CSFD and elevation of mean arterial pressure (MAP) in patients with acute spinal cord injury (SCI). The objectives of the trial are to evaluate (i) efficacy of reducing intrathecal pressure (ITP) by CSFD in patients with acute SCI; (ii) preliminary efficacy of combination of CSFD and elevation of MAP compared to elevation of MAP alone in improving neurologic motor outcomes in patients with acute SCI; and, (iii) safety of intensive CSFD in acute SCI patients.
The objective of this study is to evaluate the safety and efficacy of EVICEL® Fibrin Sealant (Human) for use as an adjunct to sutured dural repair in cranial surgery.
As elaborated above only one study reported ultrasonographic changes of the width of the lateral ventricle during clamping of EVD/LD and indicated that ultrasound monitoring might be suitable. No firm data exists about the change of the width of the third ventricle, the diameter of the optic nerve or brain perfusion during clamping of the EVD/LD, although the width of these structures has been shown to depend on intracranial pressure. Ultrasonographic measurements of changes of the width of the third ventricle or the diameter of the optic nerve would have some advantages compared to the ultrasonographic assessments of the lateral ventricles. First, the width of the third ventricle can be measured easier and more reliable than the width of the lateral ventricles (better defined insonation plane and therefore higher repeatability of measurements) 3. Second, whereas assessments of the width of the side and third ventricles with ultrasound depend on the temporal bone windows (10 to 15% of patients have insufficient temporal bone windows), the measurement of the diameter of the optic nerve does not have this limitation and can therefore be performed in almost all patients. Hence, measurement of the diameter of the optic nerve would allow to overcome one major limitation of transcranial ultrasound. The latter limitation for transcranial ultrasound could also be minimized by the use of an ultrasound contrast agent (SonoVue®), but this was also not yet studied. The use of an ultrasound contrast agent would in addition allow to study changes of brain perfusion during clamping of EVD/LD.
Sinus surgery is a common procedure. A potential complication is injuring the membranes of the brain. This can lead to leakage of brain fluid through the nose. We would like to estimate the incident rates of that complication. At the end of the operation, a thin gauze is inserted into the nose on both sides in addition to the usual tampon. This gauze will be analyzed at the laboratory for beta-2-transferrin, which is a biomarker for brain liquid.