Anaesthesia and intensive care
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Anaesth Intensive Care · Apr 2002
ReviewPharmacological principles of antibiotic prescription in the critically ill.
The goal of antimicrobial prescription is to achieve effective drug concentrations. Standard antimicrobial dosing regimens are based on research performed often decades ago and for the most part with patients who were not critically ill. More recent insights into antibiotic activity (e.g. the importance of high peak/MIC ratios for aminoglycosides and time above MIC for beta-lactam antibiotics), drug pharmacokinetics (e.g. increased volume of distribution and altered clearances) and the pathogenesis of sepsis (e.g. third space losses and altered creatinine clearances) have made re-evaluation of dosing regimens necessary for the critically ill. ⋯ The institution of continuous renal replacement therapy separately affects antibiotic clearances, and therefore dosing, even further. This article reviews relevant literature and offers principles for more effective and appropriate antibiotic dosing in the critically ill, based on the pharmacokinetic and pharmacodynamic principles of the main antibiotic groups (aminoglyosides, glycopeptides, beta-lactams, carbapenems and quinolones) and knowledge of the pathophysiology of the inflammatory response syndrome. Finally it also provides some guidance on the basic principles of drug prescription for patients receiving continuous renal replacement therapy.
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Persistent neuromuscular blockade is not uncommon in the recovery room and contributes to postoperative morbidity and possibly mortality. The use of neuromuscular monitoring and intermediate rather than long-acting neuromuscular blocking drugs have been shown to reduce its incidence. Clinically available methods of detecting and quantitating neuromuscular blockade are reviewed. The writer concludes that such monitoring should be routine when neuromuscular blocking drugs are used.
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Anaesth Intensive Care · Apr 2002
The effect of selective brain cooling on intracerebral temperature during craniotomy.
In this study we investigated the effect of topical application of cool irrigation fluid on brain tissue temperature during craniotomy. Eight patients were given a standard general anaesthetic for craniotomy. Distal oesophageal and nasopharyngeal temperatures were measured continuously and systemic normothermia was maintained. ⋯ The average time to return to baseline temperature after cessation of irrigation was 5.3 +/- 1.5 minutes. Cooling the brain has a marked protective effect after brain injury, but systemic hypothermia can produce significant harmful effects. This study demonstrates that the use of cool irrigation fluid during neurosurgery is a simple and effective method of cooling the brain whilst minimizing the use of systemic hypothermia.
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Anaesth Intensive Care · Apr 2002
Association of serum albumin concentration and mortality risk in critically ill patients.
In this study we aimed to examine the association between serum albumin concentration and mortality risk in critically ill patients. We retrospectively studied 1003 patients admitted to ourIntensive Care Unit (ICU) over an 18-month period. Serial albumin measurements over 72 hours were compared between survivors and non-survivors, and medical and surgical patients were also compared. ⋯ We also combined APACHE II with albumin values and constructed the corresponding ROC curves. Our data showed that serum albumin had low sensitivity and specificity for predicting hospital mortality. Combining APACHE II score with serum albumin concentrations did not improve the accuracy of outcome prediction over that of APACHE II alone.
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Anaesth Intensive Care · Apr 2002
Randomized Controlled Trial Comparative Study Clinical TrialPropofol and midazolam versus propofol alone for sedation following coronary artery bypass grafting: a randomized, placebo-controlled trial.
The aim was to compare the efficacy and side-effects of propofol combined with a constant, low dose of midazolam versus propofol alone for sedation. In a prospective, randomized and double-blinded study, 60 male patients scheduled for elective coronary bypass grafting were enrolled. Postoperatively, patients were stratified to receive either a continuous intravenous infusion of midazolam 1 mg/h or placebo. ⋯ Weaning time from mechanical ventilation was longer in the midazolam group whether or not they required supplemental propofol when compared with placebo group (all: 432 +/- 218 min vs 319 +/- 223 min; P=0.04; supplementary propofol: 424 +/- 234 min vs 265 +/- 175 min; P=0.03). The cumulative number of patients remaining intubated was significantly higher in the group midazolam + propofol compared with the group placebo + propofol (P=0.03). In conclusion, target sedation is reached slightly more often by the co-administration of propofol and a low dose of midazolam, but weaning time from mechanical ventilation is prolonged by the co-administration of propofol and a low dose of midazolam.