View clinical trials related to Cerebrospinal Fluid Leak.
Filter by:Background: Chronic subdural hematoma (cSDH) is a type of intracranial bleeding, predominantly affecting the elderly and males, with an estimated incidence of 8/100.000. The collection of subdural fluid expands slowly, leading eventually to brain tissue compression that results in neurological impairment such as seizures, cognitive decline, and paresis. Most patients need neurosurgical evacuation of the blood to improve and to prevent further, possibly permanent deterioration. Evidently, the cause of such a bleeding must be investigated and if possible treated, or preventive strategies need to be installed if possible. Spinal cerebrospinal fluid (CSF) leaks are a known cause of cSDH but are widely underdiagnosed in this population. The spinal CSF leak causes CSF loss that leads to intracranial hypotension, expansion of intracerebral veins, and traction to the brain and the surrounding tissues. A cSDH is a severe complication of such a leak and occurs in about 30% of all cases with a predominance among the elderly. It is crucial to identify these patients with a spinal leak as treatment pathways differ essentially from patients without a leak. Some smaller studies indicated a prevalence of spinal CSF leaks among cSDH patients of 30% to 80% depending on selection criteria (age, extend of cSDH). Notably, the entity of the CSF-venous fistula, that has been discovered as recent as 9 years ago, and that by now is accounting for 20-25% of all spinal leaks, has not been considered in previous research on cSDH and spinal CSF leaks. Currently, there is no prospective data on spinal CSF leaks in patients with cSDH. Establishment of such data is crucial to improve diagnostic and therapeutic algorithms for spinal CSF leaks in patients with cSDH. Objective: To prospectively assess the prevalence of spinal CSF leaks in patients with cSDH Methods: This is a prospective observational, monocentric study on patients admitted due to cSDH to the Department of Neurosurgery at the Medical Center of the University of Freiburg. Treatment and diagnostic procedures will follow standard protocols. The number of spinal CSF leaks will be assessed to generate the prevalence of spinal CSF leaks in this patient cohort. Furthermore, clinical data, the specific type of the CSF leak, and imaging parameters are assessed systematically to estimate the diagnostic value of these measures.
The purpose of this study is to specifically evaluate the effectiveness of PuraGel, a RADA16 polypeptide hydrogel, in expediting post-operative healing and re-mucosalization of the nasoseptal flap harvest site during endoscopic skull base surgery and the impact on patient and sinonasal morbidity.
To assess the diagnostic accuracy of combined high resolution CT, CT cisternography and MR cisternography in pre operative assessment of active CSF leak, compared by endoscopic sinus surgery.
As limited data is available locally and internationally regarding early Lumbar drain and its effect on duration of CSF leak we have decided to compare it conservative treatment. By providing CSF an alternative route for drainage, the fistula site will remain dry. Leakage site won't be facing CSF pressure, and this will promote early healing of the wound.
Postoperative cerebrospinal fluid (CSF) leakage is a well-known complication that might occur after transnasal transsphenoidal adenomectomy at an incidence of 0.5-15% according to different literature reports. Persistent CSF leakage may lead to intracranial hypotension or meningitis, therefore aggressive management is mandatory. The treatment is immediate repair during transsphenoidal surgery once intraoperative CSF leakage is identified, with the adjunct of postoperative bed rest and/or lumbar drainage. However, due to the advances in endoscopic endonasal skull base surgery, some surgical teams have advocated that postoperative bed rest may not be necessary if appropriate repair have been performed. High-flow CSF leakage typically occurs in an extended endonasal approach to the anterior or posterior cranial fossa, whereas CSF leakage resulting from transsphenoidal pituitary surgery is usually easier to be repaired. Bed rest is stressful management for patients and poses increased risks in many ways, such as the need for an indwelling urinary catheter, musculoskeletal pain, affected sleep quality, and increased possibility of thromboembolism. It is crucial that the duration of bed rest be cut short or totally avoided if clinically acceptable. In reviewing the literature, there is insufficient evidence supporting the routine use of postoperative bed rest after CSF leakage repair in transsphenoidal surgery. This study aims to compare the efficacy of successful CSF leakage repair with or without postoperative bed rest with an open-label randomized trial design.
This retrospective study was conducted on patients with frontal sinus leaks came to ENT departments of Al-Azhar University Hospital, New Damietta, Egypt, for a period of five years.
The primary goal of this study is to retrospectively collect data on the safety and efficacy of Suturable DuraGen™.
Limited literature has been reported the use of free middle turbinate flap during an endoscopic approach to treat cerebrospinal fluid (CSF) leak, and the results were inconclusive. The overall purpose of this study was to assess the efficacy and safety of free middle turbinate flap in reparing CSF leak during an endoscopic approach.
The purpose of this study is to compare the rate and severity of complications associated with CSFD placement either with or without fluoroscopic guidance.
This project seeks to test whether a cell-seeded collagen hydrogel dressing can reduce CSF leak after skull base surgery. Normally, patients at risk for CSF leak are treated with a commercial collagen matrix called Duragen. In this study, our sterile, cGMP manufactured collagen hydrogel dressing will be seeded with the stromal vascular fraction (SVF) mechanically isolated from lipoaspirate taken intra-operatively. This SVF contains pro-regenerative adipose stem cells (ASCs). The ASC-seeded hydrogel will be used as a supplement to Duragen to reinforce the skull base closure. The goal is to establish safety as well as to secondarily evaluate for effectiveness in reducing CSF leak postoperatively.