Intermittent CSF drainage and rapid EVD weaning approach after subarachnoid hemorrhage: association with fewer VP shunts and shorter length of stay

In a rat model of hydrocephalus triggered by intraventricular hemorrhage, Kristopher Kahle and colleagues show that TLR4–NF-κB-dependent inflammatory signaling in the choroid plexus causes hypersecretion of cerebrospinal fluid that drives hydrocephalus. Targeting TLR4–NF-κB-mediated signaling or the NKCC1–SPAK complex ameliorates hydrocephalus.

External ventricular drains (EVDs) are commonly placed to monitor intracranial pressure and manage acute hydrocephalus in patients with a variety of intracranial pathologies. The indications for EVD insertion and their efficacy in the management of these various conditions have been previously addressed in guidelines published by the Brain Trauma Foundation, American Heart Association and combined committees of the American Association of Neurological Surgeons and the Congress of Neurological Surgeons. While it is well recognized that placement of an EVD may be a lifesaving intervention, the benefits can be offset by procedural and catheter-related complications, such as hemorrhage along the catheter tract, catheter malposition, and CSF infection. Despite their widespread use, there are a lack of high-quality data regarding the best methods for placement and management of EVDs to minimize these risks. Existing recommendations are frequently based on observational data from a single center and may be biased to the authors' view. To address the need for a comprehensive set of evidence-based guidelines for EVD management, the Neurocritical Care Society organized a committee of experts in the fields of neurosurgery, neurology, neuroinfectious disease, critical care, pharmacotherapy, and nursing. The Committee generated clinical questions relevant to EVD placement and management. They developed recommendations based on a thorough literature review using the Grading of Recommendations Assessment, Development, and Evaluation system, with emphasis placed not only on the quality of the evidence, but also on the balance of benefits versus risks, patient values and preferences, and resource considerations.

The objective of this study was to assess the incidence of ventriculostomy-associated infections (VAI) and to examine the related risk factors. Data on all consecutive patients with ventriculostomy catheters admitted to the intensive care unit (ICU) in a tertiary care center over a 3-year period were identified from the ICU database and from medical records. VAI was documented using a preset definition. The following patient data were documented: demographics, severity of illness measures, indication for the catheter, presence of cerebrospinal fluid (CSF) leak, and length of stay and mortality. The following catheter data were collected: venue of catheter placement (operating room or nonoperating room areas), use of antibiotic irrigation and prophylactic systemic antibiotics, and number of catheter days. The frequency of CSF sampling was documented. In 84 patients, 99 catheters were placed, of which 19% developed VAI. There was a total of 586 catheter days (infection rate, 32 per 1000 catheter days). The risk of VAI increased steadily until catheter day 7 then reached a plateau. Among patients' factors, repeat catheter insertion was associated with a significant increase in VAI. There were no significant associations with age, severity of illness, indication for the catheter, craniatomy, or presence of CSF leak. Among catheter factors, the number of catheter days and repeat catheter insertion emerged as significant independent predictors on multivariate analysis. Placement outside the operating room was associated with a trend toward higher VAI. The use of prophylactic antibiotic or antibiotic irrigation did not significantly alter VAI rates. Routine surveillance cultures of CSF were no more likely to detect infection than cultures obtained when clinically indicated. Gram-negative bacilli were responsible for 50% of the infections, followed by gram-positive cocci (29%) and others (21%). The risk of VAI increases with increasing duration of catheterization and with repeated insertions. The use of local antibiotic irrigation or systemic antibiotics does not appear to reduce the risk of VAI. Routine surveillance cultures of CSF were no more likely to detect infection than cultures obtained when clinically indicated. These findings need to be considered in infection control policies addressing this important issue.