Journal of clinical neuroscience : official journal of the Neurosurgical Society of Australasia
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Review
Multimodal neuromonitoring for traumatic brain injury: A shift towards individualized therapy.
Multimodal neuromonitoring in the management of traumatic brain injury (TBI) enables clinicians to make individualized management decisions to prevent secondary ischemic brain injury. Traditionally, neuromonitoring in TBI patients has consisted of a combination of clinical examination, neuroimaging and intracranial pressure monitoring. Unfortunately, each of these modalities has its limitations and although pragmatic, this simplistic approach has failed to demonstrate improved outcomes, likely owing to an inability to consider the underlying heterogeneity of various injury patterns. ⋯ Recent additions to the multimodal neuromonitoring platform include measures of cerebrovascular autoregulation, brain tissue oxygenation, microdialysis and continuous electroencephalography. The implementation of neurocritical care teams to manage patients with advanced brain injury has led to improved outcomes. Herein, we present a narrative review of the recent advances in multimodal neuromonitoring and highlight the utility of dedicated neurocritical care.
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Review Case Reports
Posterior reversible encephalopathy syndrome following hemodynamic treatment of aneurysmal subarachnoid hemorrhage-induced vasospasm.
Posterior reversible encephalopathy syndrome (PRES) is an uncommon but significant complication of hemodynamic therapy after aneurysmal subarachnoid hemorrhage (aSAH)-induced vasospasm. We performed a PubMed literature search for the period January 1999 to January 2015 using the search terms "posterior reversible encephalopathy syndrome", "subarachnoid hemorrhage", "vasospasm", and "hypertensive encephalopathy", and identified nine cases of PRES after aSAH-induced vasospasm in the literature. We also present a 63-year-old man with aSAH complicated by vasospasm treated with hemodynamic augmentation who subsequently developed PRES. ⋯ To summarize, PRES is a rare complication of hemodynamic therapy for vasospasm following aSAH. The literature at the time of writing demonstrates no common pattern with regard to patient demographics, medical history, or mode of treatment for symptomatic vasospasm. Given its sporadic and unpredictable nature, considering PRES in the differential diagnosis is important when addressing neurological decline following hemodynamic treatment of vasospasm related to aSAH.
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The aim of this review is to determine the efficacy and optimal strategy for epidural blood patch placement in the treatment of spontaneous intracranial hypotension. We present a 37-year-old man who developed a 4 week duration postural headache without sustaining significant trauma. The diagnosis of spontaneous intracranial hypotension with associated subdural hygromas was confirmed with lumbar puncture and radiologic imaging. ⋯ No clear evidence exists on comparative efficacy due to paucity of randomized trials. However, epidural blood patches in general result in positive outcomes with overall efficacy near 90%. Some trials have suggested greater efficacy for targeted rather than blind epidural blood patches, but randomized studies and long-term prognosis remain to be evaluated.
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Enhanced recovery after surgery (ERAS) initiatives in the fields of gastrointestinal and pelvic surgery have contributed to improved postoperative functional status for patients and decreased length of stay. A similar comprehensive protocol is lacking for patients undergoing craniotomy for tumor resection. A literature search was performed using PubMed. ⋯ Seventeen ERAS items were reviewed and recommendations made. The current body of evidence is insufficient to create a standardized protocol for craniotomy and tumor resection. However, this initial review of the literature supports pursuing future research initiatives that explore modalities to improve functional recovery and decrease length of stay in craniotomy patients.
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Cortical spreading depolarization (CSD) is a spreading loss of ion homeostasis, altered vascular response, change in synaptic architecture, and subsequent depression in electrical activity following an inciting neurological injury. First described by Leão in 1944, this disturbance in neuronal electrophysiology has since been demonstrated in a number of animal studies, and recently a few human studies that examine the occurrence of this depolarizing phenomenon in the setting of a variety of pathological states, including migraines, cerebrovascular accidents, epilepsy, intracranial hemorrhages, and traumatic brain injuries. The onset of CSD has been demonstrated experimentally following a disruption in the neuronal environment leading to glutamate-induced toxicity. ⋯ In damaged tissue, not only is the restorative vascular response lacking but a vasoconstrictive response is promoted and the ischemia that follows adds to the severity of the initial injury. Tissue threatened by this ischemic response is then at elevated risk for CSD propagation and falls into a vicious cycle of electrical and hemodynamic disturbance. Efforts have been made to halt this spreading cortical depression using N-methyl-D-aspartate receptor antagonists and other ion channel blockers to minimize the damaging effects of CSD that can persist long after the triggering insult.