scholarly journals Lumbar drain for CSF leakage: a word of caution

2021 ◽  
Vol 4 (2) ◽  
Author(s):  
Chashamjot Bawa Chasham ◽  
Jyoti Raina Jyoti ◽  
Amandeep Singh Randhawa Aman ◽  
Khushbu Rani Khushbu

A continuous lumbar drain is a frequently practiced procedure to prevent cerebrospinal fluid (CSF) infection in post-operative neurosurgical cases. However, the level of CSF drained must correspond to the intracranial pressures, where any accidental increase in lumboventricular gradient by slipping of the drainage bag below the level of the iliac crest can lead to over drainage and catastrophe. The learning point is to use automated or manual measures to monitor Intra-Cranial Pressure (ICP) and sound alarm in such an event to prevent sagging of the brain.

2000 ◽  
Vol 79 (5) ◽  
pp. 372-378 ◽  
Author(s):  
Rakesh B. Patel ◽  
Jed A. Kwartler ◽  
Richard M. Hodosh ◽  
Soly Baredes

Isolated cases of spontaneous cerebrospinal fluid (CSF) leakage with and without middle ear encephalocele have been reported. These leaks are usually accompanied by episodes of recurrent meningitis, hearing loss, or chronic headache. In this article, we report seven new cases of spontaneous CSF leakage. Six of these patients had conductive hearing loss and serous otitis media, and three had recurrent meningitis. Prior to a definitive diagnosis, six patients had received myringotomy tubes, which produced profuse clear otorrhea. Three patients had positive beta-2 transferrin assays. Computed tomography and magnetic resonance imaging confirmed a defect in the temporal bone tegmen. A combined transmastoid and middle fossa surgical approach with a three-layer closure was used to repair the tegmen defect. All patients had a lumbar drain placed prior to surgery. In addition to describing the seven new cases, we review the history of CSF leakage and discuss diagnostic methods, surgical findings, and our recommendations for management.


2016 ◽  
Vol 9 (2) ◽  
pp. 87-89
Author(s):  
Arvind Soni ◽  
Anchal Duggal

ABSTRACT A cerebrospinal fluid (CSF) leak is an escape of the fluid that surrounds the brain and spinal cord. Any tear or hole in the membrane that surrounds the brain and spinal cord (dura) can allow the fluid that surrounds those organs to leak. Most commonly, the leak is known to occur from the nose (CSF rhinorrhea) or through the ears (CSF otorrhea). Also, etiology is posttraumatic in majority. However, idiopathic CSF leakage from the eyes is extremely uncommon. How to cite this article Soni A, Duggal A. Idiopathic Cerebrospinal Fluid Oculorrhea: An Unusual Case Report. Clin Rhinol An Int J 2016;9(2):87-89.


QJM ◽  
2021 ◽  
Vol 114 (Supplement_1) ◽  
Author(s):  
Mohamed Ashraf Mohamed Farrag ◽  
Talaat Ali Hassan El Samnni ◽  
Tamer Abdul Wahab El Sabri Abou El Ezz ◽  
Mohamed Naguib Mohamed El Sayed

Abstract Introduction Cerebrospinal fluid (CSF) leak happens when there is an abnormal connection between the brain cavity inside and environment outside. It is important to establish a good barrier between the brain tissue and the nose to prevent cerebrospinal fluid leak and protect the brain from exposure to infection. which can be done either by endoscopic or non-endoscopic surgical repair. Patients and methods The aim of this work is to evaluate the effectiveness of endoscopic and non-endoscopic repair of CSF leakage in patients suffering from CSF rhinorrhea. The search retrieved 1693 unique records. We then retained 89 potentially eligible records for full-texts screening. Finally, 11 studies (Total No. of patients = 355) were included in the present systematic review and meta-analysis. Results CSF rhinorrhea resolved in endoscopic surgery group giving a success rate of 88.8%to 100%. recurrence rate is 2% to 12.2% and postoperative complications occurred in 5% to 16.7%. Conclusion The endoscopic approach is highly effective, better than non-endoscopic route and is associated with low morbidity for the management of CSF rhinorrhea .


2019 ◽  
Vol 8 (2) ◽  
pp. 121-31
Author(s):  
Dimas Rahmatisa ◽  
MM Rudi Prihatno

Stroke dapat terjadi akibat terhentinya aliran darah ke otak, yang terjadi secara mendadak. Penyebab terbanyak stroke adalah berkurangnya pasokan darah ke otak (stroke iskemik). Penyebab stroke lainnya adalah perdarahan (stroke hemoragik). Perdarahan subaraknoid (SAH) biasanya dapat terjadi baik karena ruptur aneurisma, atau karena trauma. Perempuan, 46 tahun dengan GCS 14 (E4M6V4) dengan hipertensi tidak terkontrol mengalami nyeri kepala hebat. Dari pemeriksaan CT scan memperlihatkan adanya perdarahan subaraknoid dan edema sereberi. Pasien ini dilakukan tindakan coiling aneurisma cito dengan anestesia umum. Pasca coiling pasien dirawat di ruang intensive care unit (ICU). Pasca perawatan 1 hari di ICU, pasien dipindahkan ke ruang high care unit (HCU), dengan kondisi stabil. Penurunan kesadaran mulai terjadi saat perawatan hari kedua, sempat dilakukan pemasangan lumbar drain pada hari ketiga, untuk membantu mengurangi hidrosefalus dan juga menurunkan tekanan intra kranial. Pada perawatan hari ketigabelas kesadaran menurun drastis menjadi E1M1V1, pasien dipindahkan ke ruang ICU, dan meninggal esok harinya. Penurunan kesadaran pasca coiling diakibatkan oleh peningkatan tekanan intra kranial, yang pada kasus ini disebabkan oleh edema sereberi luas. Early Brain Injury ¬ditambah dengan adanya vasopasme menyebabkan terjadinya delayed ischemic neurological deficit. Terapi yang sudah dikerjakan baik farmakologis maupun non farmakologis, tetap tidak bisa memperbaiki keadaan pasien. Delayed Ischemic Neurological Defisit (DIND) Pasca Coiling Subarachnoid Hemorrhage (SAH) e.c Ruptur AneurismaAbstractStroke can occur due to the cessation of blood flow to the brain, which occurs suddenly. The most common cause of stroke is reduced blood supply to the brain (ischemic stroke). Another cause of stroke is bleeding in the brain (hemorrhagic stroke). Subarachnoid hemorrhage (SAH) usually results from ruptured aneurysms or because of trauma. Women, 46 years old with GCS 14 (E4M6V4) with uncontrolled hypertension experienced severe headache since 2 days before admitted to the hospital. The CT scan examination showed subarachnoid hemorrhage and edema of the brain. This patient then performed emergency coiling of aneurysm with general anesthesia. During the procedure the patient is in stable condition. Post coiling the patient was sent to the ICU room. After 1 day in ICU, the patient was transferred to high care unit (HCU) room, with stable condition. Decreased of consciousness began to occur during the second day of treatment, had done lumbar drain installation on the third day, to help reduce the hydrocephalus and also improve intra-cranial pressure. On the thirteenth day care GCS was decrease suddenly to E1M1V1, the patient was transferred to the ICU room, the next day the patient was declared dead. The decrease of consciousness post coiling results from an increase in intra-cranial pressure, which in this case is due to severe brain edema. Earlu brain injury along with the occurence of vasospasm lead to delayed ischemic neurological deficit. Pharmacological and non-pharmacological therapy had been given to the patient still couldn’t improve the patient condition


Author(s):  
Seog-Kyun Mun ◽  
Munyoung Chang

Although brain infusion cannula is a good method to deliver compounds directly into the brain, fixation of the brain infusion cannula is essential for successful delivery. Dental cements and adhesive gel are the commonly used materials for fixation of the infusion cannula. However, these materials take time to harden and occasionally, fixation may fail. Therefore, we developed a novel method to fix the brain infusion cannula. Brain infusion cannulas were implanted into seven Wistar rats using the novel tie method. One, three, and seven days after the surgery, displacement of the brain infusion cannula and cerebrospinal fluid (CSF) leakage were evaluated in all the rats. None of the animals showed displacement of the brain infusion cannula or leakage of CSF at any point of time. In this study, we showed the successful results of the novel tie method for fixation of the brain infusion cannula, which needs no additional materials. It only requires a thread which is used for skin sutures.


1969 ◽  
Vol 21 (02) ◽  
pp. 294-303 ◽  
Author(s):  
H Mihara ◽  
T Fujii ◽  
S Okamoto

SummaryBlood was injected into the brains of dogs to produce artificial haematomas, and paraffin injected to produce intracerebral paraffin masses. Cerebrospinal fluid (CSF) and peripheral blood samples were withdrawn at regular intervals and their fibrinolytic activities estimated by the fibrin plate method. Trans-form aminomethylcyclohexane-carboxylic acid (t-AMCHA) was administered to some individuals. Genera] relationships were found between changes in CSF fibrinolytic activity, area of tissue damage and survival time. t-AMCHA was clearly beneficial to those animals given a programme of administration. Tissue activator was extracted from the brain tissue after death or sacrifice for haematoma examination. The possible role of tissue activator in relation to haematoma development, and clinical implications of the results, are discussed.


1990 ◽  
Vol 122 (2) ◽  
pp. 191-200 ◽  
Author(s):  
C. G. J. Sweep ◽  
Margreet D. Boomkamp ◽  
István Barna ◽  
A. Willeke Logtenberg ◽  
Victor M. Wiegant

Abstract The effect of intracerebroventricular (lateral ventricle) administration of arginine8-vasopressin (AVP) on the concentration of β-endorphin immunoreactivity in the cerebrospinal fluid obtained from the cisterna magna was studied in rats. A decrease was observed 5 min following injection of 0.9 fmol AVP. No statistically significant changes were found 5 min after intracerebroventricular treatment of rats with 0.09 or 9 fmol. The decrease induced by 0.9 fmol AVP was of short duration and was found 5 min after treatment but not 10 and 20 min. Desglycinamide9-AVP (0.97 fmol), [pGlu4, Cyt6]-AVP-(4–9) (1.44 fmol), Nα-acetyl-AVP (0.88 fmol), lysine8-vasopressin (0.94 fmol) and oxytocin (1 fmol) when intracerebroventricularly injected did not affect the levels of β-endorphin immunoreactivity in the cerebrospinal fluid 5 min later. This suggests that the intact AVP-(1–9) molecule is required for this effect. Intracerebroventricular pretreatment of rats with the vasopressin V1-receptor antagonist d(CH2)5Tyr(Me)AVP (8.63 fmol) completely blocked the effect of AVP (0.9 fmol). In order to investigate further the underlying mechanism, the effect of AVP on the disappearance from the cerebrospinal fluid of exogenously applied β-endorphin was determined. Following intracerebroventricular injection of 1.46 pmol camel β-endorphin-(1–31), the β-endorphin immunoreactivity levels in the cisternal cerebrospinal fluid increased rapidly, and reached peak values at 10 min. The disappearance of β-endorphin immunoreactivity from the cerebrospinal fluid then followed a biphasic pattern with calculated half-lifes of 28 and 131 min for the initial and the terminal phase, respectively. Treatment of rats with AVP (0.9 fmol; icv) during either phase (10, 30, 55 min following intracerebroventricular administration of 1.46 pmol β-endorphin-(1–31)) significantly enhanced the disappearance of β-endorphin immunoreactivity from the cerebrospinal fluid. The data suggest that vasopressin plays a role in the regulation of β-endorphin levels in the cerebrospinal fluid by modulating clearance mechanisms via V1-receptors in the brain.


2018 ◽  
Vol 69 (6) ◽  
pp. 1376-1377
Author(s):  
Razvan Hainarosie ◽  
Teodora Ghindea ◽  
Irina Gabriela Ionita ◽  
Mura Hainarosie ◽  
Cristian Dragos Stefanescu ◽  
...  

Cerebrospinal fluid rhinorrhea represents drainage of cerebrospinal fluid into the nasal cavity. The first steps in diagnosing CSF rhinorrhea are a thorough history and physical examination of the patient. Other diagnostic procedures are the double ring sign, glucose content of the nasal fluid, Beta-trace protein test or beta 2-transferrin. To establish the exact location of the defect imagistic examinations are necessary. However, the gold standard CSF leakage diagnostic method is an intrathecal injection of fluorescein with the endoscopic identification of the defect. In this paper we analyze a staining test, using Methylene Blue solution, to identify the CSF leak�s location.


Author(s):  
Emilie W. Olstad ◽  
Christa Ringers ◽  
Adinda Wens ◽  
Jan N. Hansen ◽  
Cecilia Brandt ◽  
...  

Author(s):  
Emma M. H. Slot ◽  
Kirsten M. van Baarsen ◽  
Eelco W. Hoving ◽  
Nicolaas P. A. Zuithoff ◽  
Tristan P. C van Doormaal

Abstract Background Cerebrospinal fluid (CSF) leakage is a common complication after neurosurgical intervention. It is associated with substantial morbidity and increased healthcare costs. The current systematic review and meta-analysis aim to quantify the incidence of cerebrospinal fluid leakage in the pediatric population and identify its risk factors. Methods The authors followed the PRISMA guidelines. The Embase, PubMed, and Cochrane database were searched for studies reporting CSF leakage after intradural cranial surgery in patients up to 18 years old. Meta-analysis of incidences was performed using a generalized linear mixed model. Results Twenty-six articles were included in this systematic review. Data were retrieved of 2929 patients who underwent a total of 3034 intradural cranial surgeries. Surprisingly, only four of the included articles reported their definition of CSF leakage. The overall CSF leakage rate was 4.4% (95% CI 2.6 to 7.3%). The odds of CSF leakage were significantly greater for craniectomy as opposed to craniotomy (OR 4.7, 95% CI 1.7 to 13.4) and infratentorial as opposed to supratentorial surgery (OR 5.9, 95% CI 1.7 to 20.6). The odds of CSF leakage were significantly lower for duraplasty use versus no duraplasty (OR 0.41 95% CI 0.2 to 0.9). Conclusion The overall CSF leakage rate after intradural cranial surgery in the pediatric population is 4.4%. Risk factors are craniectomy and infratentorial surgery. Duraplasty use is negatively associated with CSF leak. We suggest defining a CSF leak as “leakage of CSF through the skin,” as an unambiguous definition is fundamental for future research.


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