Critical care : the official journal of the Critical Care Forum
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Comment
Genetic epidemiology of acute lung injury: choosing the right candidate genes is the first step.
In an innovative scientific review in this issue, Grigoryev and colleagues report a method for choosing candidate genes for acute lung injury (ALI) based on gene expression data derived from multiple animal models of mechanical ventilation and shear stress. The authors conclude there are five key biologic processes that warrant further investigation: inflammatory and immune responses, cell proliferation, chemotaxis, and blood coagulation. This review represents an important first step toward studying the genetic epidemiology of ventilator-induced lung injury and ALI. The application of these findings to future human studies of the genetic influence on ALI risks and outcomes is discussed here.
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Critical care is both expensive and increasing. Emergency department (ED) management of critically ill patients before intensive care unit (ICU) admission is an under-explored area of potential cost saving in the ICU. ⋯ Earlier application in the ED of intensive therapies such as goal-directed therapy and noninvasive ventilation may reduce ICU costs by decreasing length of stay and need for admission. Future critical care policies and health services research should include both the ED and ICU in their analyses.
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Large quantitaties of inflammatory mediators are released during the course of endotoxaemia. These mediators in turn can stimulate the sympathetic nervous system (SNS) to release catecholamines, which ultimately regulate inflammation-associated impairment in tissue perfusion, myocardial impairment and vasodilatation. Treatment of sepsis is based on surgical and/or antibiotic therapy, appropriate fluid management and application of vasoactive catecholamines. ⋯ Apart from its haemodynamic action, dopamine can modulate immune responses by influencing the cytokine network. This leads to inhibition of expression of adhesion molecules, inhibition of cytokine and chemokine production, inhibition of neutrophil chemotaxis and disturbed T-cell proliferation. In the present review we summarize our knowledge of the immunomodulatory effects of dopamine, with an emphasis on the mechanisms by which these effects are mediated.
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For many patients optimal perioperative care may require little or no additional medical management beyond that given by the anaesthetist and surgeon. However, the continued existence of a group of surgical patients at high risk for morbidity and mortality indicates an ongoing need to identify such patients and deliver optimal care throughout the perioperative period. A group of patients exists in whom the risk for death and serious complications after major surgery is in excess of 20%. ⋯ A number of studies have shown that the use of goal-directed haemodynamic therapy during the perioperative period can result in large reductions in morbidity and mortality. Some patients may also benefit from perioperative beta blockade, which in selected patients has also been shown to result in significant mortality reductions. In this review a pragmatic approach to perioperative management is described, giving guidance on the identification of the high-risk patient and on the use of goal-directed haemodynamic therapy and beta blockade.
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In this observational pilot study we evaluated the electroencephalogram (EEG) and auditory event-related potentials (ERPs) before and after discontinuation of propofol sedation in neurologically intact intensive care patients. ⋯ Our findings suggest that use of ERPs, especially the N100 potential, may help to differentiate between levels of sedation. Thus, they may represent a useful complement to clinical sedation scales in the monitoring of sedation status over time in a heterogeneous group of neurologically intact intensive care patients.