Neurocritical care
-
Central nervous system infections requiring treatment with intraventricular (IVT) vancomycin are becoming increasingly common with advent of intracranial devices and increasing prevalence of multi-drug resistant and nosocomial organisms. Administering vancomycin via IVT route bypasses the blood-brain barrier to allow localized and controlled delivery directly to the desired site of action, achieving high concentrations for more reliable bactericidal action. This article systematically reviews current literature on IVT vancomycin in adults, compiles current knowledge, and integrates available evidence to serve as a practical reference. ⋯ Using IVT vancomycin to treat meningitis, ventriculitis, and CNS device-associated infections appears safe and effective based on current evidence. Optimal regimens are still unclear, and dosing of IVT vancomycin requires intricate consideration of patient specific factors and their impact on CNS pathophysiology. Higher-quality clinical trials are necessary to characterize the disposition of vancomycin within CNS, and to determine models for various pathophysiological conditions to facilitate better understanding of effects on pharmacokinetic and pharmacodynamic parameters.
-
Continuous EEG recordings (cEEGs) are increasingly used in evaluation of acutely ill adults. Pre-screening using compressed data formats, such as compressed spectral array (CSA), may accelerate EEG review. We tested whether screening with CSA can enable detection of seizures and other relevant patterns. ⋯ CSA-guided review can support sensitive screening of critical pathological information in cEEG recordings. However, some patients with seizures may not be identified.
-
Comparative Study
Detection of Spreading Depolarization with Intraparenchymal Electrodes in the Injured Human Brain.
Spreading depolarization events following ischemic and traumatic brain injury are associated with poor patient outcome. Currently, monitoring these events is limited to patients in whom subdural electrodes can be placed at open craniotomy. This study examined whether these events can be detected using intra-cortical electrodes, opening the way for electrode insertion via burr hole. ⋯ Intra-parenchymally sited electrodes can be used to consistently identify depolarization events in humans. This technique greatly extends the capability of monitoring for spreading depolarization events in injured patients, as electrodes can be sited without the need for craniotomy. The method provides a new investigative tool for the evaluation of the contribution of these events to secondary brain injury in human patients.
-
Macroglossia has been reported in patients undergoing posterior fossa neurosurgical procedures and is thought to be as a result of venous engorgement from intubation or mechanical positioning during these prolonged procedures. ⋯ Neurointensivists should be aware of macroglossia with dysautonomia complicating brainstem injury, which may have perilous consequences in the setting of cerebral edema or intracranial hypertension.
-
Comparative Study
Plasma Endothelin-1 as Screening Marker for Cerebral Vasospasm After Subarachnoid Hemorrhage.
Cerebral vasospasm complicating subarachnoid hemorrhage causes ischemic stroke and worsens the neurological outcome. The potential role of endothelin-1 in vasospasm pathogenesis may provide therapeutic opportunities. A recent meta-analysis however, did not support the use of endothelin antagonists. Apart from clinical assessment, transcranial Doppler and interval angiography, there are no sensitive screening markers for evolving vasospasm. We investigate the ability of serial measurement of endothelin-1 to predict the development of vasospasm following subarachnoid hemorrhage. ⋯ In patients with subarachnoid hemorrhage and vasospasm, endothelin-1 is significantly higher in plasma than in CSF on day 5. Neither NSE nor SB100 is associated with the development of vasospasm. Measurement of serial plasma endothelin-1 concentration is a potential screening marker of vasospasm.