Minerva anestesiologica
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The detection of tissue hypoxia and its correction is one of the aim of the hemodynamic monitoring. Classical hemodynamic variable often fail to achieve this goal. Lactate measurements may be a good indicator of tissue hypoxia. ⋯ Whatever its origin, blood lactate levels have a strong predictive value. The interpretation of blood lactate levels is difficult. Nevertheless, monitoring blood lactate levels can be useful to detect tissue hypoxia and to monitor the effects of therapy.
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Even moderate temperature elevations soon acute cerebral damage may markedly worsen initial brain injury. These effects may justify aggressive antipyretic treatment in neurosurgical intensive care unit (NICU). On the basis of a literature survey, it is observed that fever is extraordinarily common in the neurosurgical intensive care unit during the acute phase of subarachnoid hemorrhage, stroke, and traumatic brain injury. ⋯ Some of the more common and innovative methods to control body temperature in order to mitigate the detrimental effects of pyrexia following acute neurological injury are explored. Maintenance of normothermia appears to be a desirable therapeutic goal in managing the patients with damaged or at-risk brain tissue. However, it has not been established conclusively that the benefits of antipyretic therapy outweigh its risks and that despite a sound physiologic argument for controlling fever in the brain-injured patient, there is no evidence that doing so will improve their outcome.
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After a period of initial enthusiasm, several trials cast serious doubts on the usefulness of corticosteroids for the treatment of patients with severe sepsis. Short course with high doses of steroides should not be given in patients with severe sepsis. The attention is now addressed to low-dose of corticosteroides. ⋯ Low doses of hydrocortisone has been shown to reproduce the normal effects of cortisol: anti-inflammatory properties and an increased in the vasoconstrictor response to cathecolamines. There is no concordance in literature about the role of replacement therapy with hydrocortisone on survival in patients with septic shock. Waiting for the results of the European confirmatory phase III trial, and based on the results of the French phase III trial, one may recommended to treat septic shock patients who have a cortisol increment after ACTH of less than 9 micro g/dl with 50 mg of hydrocortisone every 6 hours for seven days combined with 50 micro g of fludrocortisone once a day for seven days.
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Minerva anestesiologica · Apr 2003
Randomized Controlled Trial Comparative Study Clinical TrialLevosimendan compared with dobutamine in low output patients.
There are 2 studies which have investigated the hemodynamic efficacy of levosimendan compared to dobutamine in congestive heart failure patients. The first is a dose finding comparative 24-h infusion trial which included 95 NYHA II-III patients to different doses of levosimendan and 20 patients to dobutamine administered as a continuous, open-label infusion of 6 microg/kg/min. Efficacy and safety of levosimendan in severe low-output heart failure a randomized, double-blind comparison to dobutamine study compared the short- and long-term efficacy and safety of a single 24-hour infusion of levosimendan (n=103) with dobutamine (n=100) in hospitalised patients in acute heart failure. ⋯ Levosimendan significantly increased the number of days alive and out of hospital, compared with dobutamine. It was better tolerated than dobutamine and fewer patients receiving levosimendan experienced arrhythmias and myocardial ischaemia, compared with dobutamine. Levosimendan produced haemodynamic responses that were unaffected by concomitant use of beta blockers.
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Resuscitation from circulatory and respiratory failure represent mainstays of emergency and critical care management. Importantly, no amount of resuscitative effort will be successful in promoting patient survival if the primary reason for the shock state is not identified and treated, independent of resuscitation. Having said that, aggressive resuscitation to normal functional levels of blood flow and organ perfusion pressure during the first 6 hours following the development of shock improves outcome both in patients with trauma or sepsis. ⋯ Clear initial targets for resuscitation are a mean arterial pressure > 60 mm Hg, and a cardiac output and O(2) transport to the body adequate enough to prevent tissue hypoperfusion. The level of cardiac output needed to achieve this goal is probably different among subjects and within subjects over time. Indirect signposts of adequate perfusion, such as venous O2 saturation, mentation, urine output and local measures of tissue blood flow are useful in monitoring this response.