Der Anaesthesist
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There are a number of assays available to study genetic toxicity of inhalation anaesthetics. Those discussed in this review are the Ames Salmonella mutagenesis test and assays for structural chromosome aberrations, micronuclei (MN) and sister chromatid exchanges (SCEs). None of these assays showed abnormalities induced by volatile inhalation anaesthetics. ⋯ Under these conditions occupational exposure is low even when using laryngeal mask airways and uncuffed tracheal tubes. Sevoflurane is a halocarbon, but is only partially halogenated and the only halogen it contains is fluorine. Sevoflurane, therefore, appears to have an insignificant effect on ozone depletion and its contribution to the greenhouse effect is negligible.
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In common with other halogenated volatile anaesthetics, sevoflurane causes a dose-related cardiovascular depression and therefore the affection of blood flow of different organ systems is suggested. So far known, sevoflurane is not different compared to isoflurane in affecting liver and splanchnic blood flow. Concluded from former published studies there was no case of hepatic toxicity of sevoflurane been published so that this substance can be used in patients with reduced hepatic function. ⋯ However, barbiturates as well as phenytoin do not influence the metabolism of sevoflurane because these agents do not induce the major hepatic defluorinating enzyme cytochrome P450 2E1. Obesity, untreated diabetes mellitus and alcohol abuse increase the hepatic content and activity of cytochrome P450 2E1 and therefore enhanced anaesthetic defluorination is to be suspected. Until now, there are no studies about sevoflurane anaesthesia in patients after liver transplantation but the extremely low hepatotoxic potential as compared to isoflurane provides no argument to avoid this substance for anesthesia in liver transplanted patients.
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Review Comparative Study
[Sevoflurane in pediatric anesthesia. Malignant hyperthermia].
Inhalational anaesthesia is the most common anaesthesia technique in paediatric anaesthesia worldwide. Up to now the standard anaesthetic used is halothane. Because halothane is tolerated in the upper airways without side effects it is well suited for the inhalational induction of anaesthesia. ⋯ However, shorter recovery times lead to earlier perception of postoperative pain, requiring adequate pain management. (4) The hemodynamic stability after administration of sevoflurane is favourable to that after halothane in paediatric patients, leading to significantly less bradycardia. (5) In paediatric patients no negative effects on kidney function have been observed after administration of sevoflurane. There is no scientific basis for organotoxic effects, thus sevoflurane is suitable for low-flow and minimal-flow anaesthesia. (6) The duration of the action of muscle relaxants is increased to a greater extent in presence of sevoflurane compared to halothane. Consequently, the total dose of muscle relaxants can be reduced using sevoflurane. (7) Similar to the established inhalational anaesthetics sevoflurane triggers malignant hyperthermia (MH) and must not be used in patients in which MH is suspected or in which a predisposition for MH is known.
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Echocardiography is a noninvasive method for cardiac evaluation. A review of the current literature shows that the routine use of echocardiography for assessing perioperative cardiac risk in patients undergoing noncardiac surgery can not be supported. ⋯ However, because of the high financial and personal implications it should be reserved to those patients who are not able to perform a normal stress test. Besides in patients in whom transthoracic echocardiography doesn't offer sufficient information or is not possible transesophageal echocardiography plays only a minor role in preoperative cardiac evaluation.