Echography may be a valid option to computed tomography in patients with decompressive craniectomy to assess the size of acute hemorrhagic lesions, to measure midline structures and the width of lateral ventricles, and to visualize the tip of the ventricular catheter.
Many patients in the ICU receive mechanical ventilation and require sedative medications. Anxiolysis, hypnosis, and amnesia can be considered the primary objects of sedative therapy. Intravenous benzodiazepines are the drugs most commonly used for sedation in ICU. Proper choice and use of benzodiazepines is based on knowledge of the pharmacology and is an essential component of caring for patients in the intensive care unit. Three benzodiazepines--Diazepam, Lorazepam and Midazolam--are currently available for parenteral use in the ICU. Onset and duration of action are determined by their lipid solubility. Respiratory depression and hypotension are dose-dependent. Midazolam is generally preferred to other benzodiazepines in most ICU. It has the shortest half-life of the benzodiazepines, does not have active metabolites, is water soluble and can be administered by continuous infusion. Despite the relatively short half-life of Midazolam, extensive distribution can cause prolonged sedation. Recovery time is proportional to the infusion's duration. Lorazepam is lipid soluble and dissolved in a propylene glycol carrier, produces a delayed onset and prolonged duration of effect and is preferred for long-term sedation (>48 hours). Propylene glycol toxicity is possible with high-dose or prolonged infusions. Diazepam has become less used with the introduction of the shorter-acting and less irritating benzodiazepine. The recent literature focuses on the differences between Midazolam and Propofol, the most used sedatives in ICU, their sequential use and combination. Relevant studies have been performed about propylene glycol toxicity.
Extracorporeal liver devices have gained great attention as a complementary approach to liver transplantation in patients with acute on chronic liver failure. Among others, Molecular Adsorbent Recycling System (MARS) is a hemodiafiltration against albumin able to remove low molecular weight toxins. We aimed to validate the use of MARS in patients presenting with acute on chronic liver failure with severe cholestasis. We enrolled 7 patients with acute on chronic liver failure, presenting with bilirubin >25 mg/dl and hepatorenal syndrome and/or hepatic encephalopathy grade >II. Liver biochemistry, coagulation, blood cell count, electrolytes, ammonia, lactate, blood urea nitrogen, creatinine, bile acids, Fischer ratio, and encephalopathy grade were assessed before and after each MARS treatment. MARS can represent a safe therapeutic choice to achieve a quick improvement of neurological status, a hemodynamic stability, and a better clinical outcome. In particular, our encouraging results suggest that also, patients with severe cholestasis may represent in the future a good indication for MARS treatment.
Some of the responses to provocative tests have been identified as "paradoxical" and seem to have a great importance in the definition of prognosis in severe head-injured patients, specifically the GH response to TRH and the PRL response to GHRH that are significantly correlated with outcome.
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