Articles: external-ventricular-drainage.
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Intraventricular hemorrhage and the subsequent development of posthemorrhagic hydrocephalus (PHH) is one of the most serious complication of prematurity, especially in extremely low birth weight infants.1 Neurodevelopmental delay, epilepsy, and severe cognitive impairment represent common sequelae of PHH.2,3 A ventriculoperitoneal shunt insertion in such premature infants is associated with higher rates of skin erosion, infection, and shunt failure.4 One therapeutic option is represented by the use of temporary cerebrospinal fluid diversion procedures (such as external ventricular drainage, subcutaneous reservoir, and ventriculosubgaleal shunt) to gain time avoiding the PHH secondary damages.5,6 An extremely low birth weight (birth weight = 653 g) infant at 24 + 4 gestational age weeks presented with a grade III intraventricular hemorrhage and periventricular hemorrhagic infarction 5 days after birth. Serial transfontanellar ultrasound disclosed a progressive PHH. Progressive symptomatic PHH, pulmonary hemodynamic instability, and suboptimal general prematurity conditions were the main factors that led to plan a percutaneous transfontanellar ultrasound-guided external ventricular drainage at the neonatal intensive care unit. ⋯ This edited, 2-dimensional operative video highlights the key surgical steps of the proposed procedure (Video 1). All relevant patient identifiers have been removed from the video. Nevertheless, the parent's consent was obtained regarding the procedure, video recording, and redistribution for educational purposes.
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Chronic shunt-dependent hydrocephalus is a well-known complication of subarachnoid hemorrhage. Although the risk factors have been extensively investigated, most fail to predict permanent shunt dependency. It is unknown whether the volume of cerebrospinal fluid (CSF) from external ventricular drainage and the daily volume of drainage during the acute hydrocephalus phase (first 72 hours) can predict shunt dependency. We aimed to determine whether CSF output during the acute hydrocephalus phase is a risk factor for shunt dependency. ⋯ Overall CSF output, especially during the acute hydrocephalus phase (first 72 hours), predicts the development of chronic hydrocephalus.
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The authors sought to determine whether the insertion of an external ventricular drain (EVD) at the time of surgery to monitor intracranial pressure (ICP) and ventriculography done within the first day following an endoscopic third ventriculostomy (ETV) is of benefit in postoperative patient management. ⋯ After reviewing this series, the continued use of a postoperative EVD appears appropriate as the risk is low and it provides ventricular access to control ICP, thereby, improving patients' safety and reducing the need for CSF shunting on an urgent/emergent basis should the ETV prove to be unsuccessful. From our limited series, the usefulness of a 1-day postoperative ETV ventriculogram is less clear and would need confirmation with additional studies.
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Neurosurgical review · Apr 2021
Optimal intracranial pressure in patients with aneurysmal subarachnoid hemorrhage treated with coiling and requiring external ventricular drainage.
Optimal management of intracranial pressure (ICP) among aneurysmal subarachnoid hemorrhage (aSAH) patients requiring external ventricular drainage (EVD) is controversial. To analyze predictors of delayed cerebral ischemia (DCI)-related cerebral infarction after aSAH and the influence of ICP values on DCI, we prospectively collected consecutive patients with aSAH receiving coiling and requiring EVD. Predictors of DCI-related cerebral infarction (new CT hypodensities developed within the first 3 weeks not related to other causes) were studied. ⋯ The AUC of the mean ICP was 0.825 (SE = 0.057), and the best cutoff value was 6.7 mmHg providing sensitivity, specificity, PPV, NPV, and accuracy of 71.4% (95%CI = 48-89%), 62% (95%CI = 42-79%), 58% (95%CI = 44-70%), 75% (95%CI = 59-86%), and 66% (95%CI = 51-79%) for the prediction of DCI-related cerebral infarction, respectively. Among aSAH patients receiving coiling and EVD, lower ICP (< 6.7 mmHg in our study) could potentially be beneficial in decreasing DCI-related cerebral infarction. Brain hypoperfusion with a volume > 18 ml at Tmax delay > 6 s presents a high sensibility and specificity in prediction of DCI-related cerebral infarction.