Der Anaesthesist
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Cardiopulmonary resuscitation (CPR) during pregnancy is a rare event, but due to the increasing number of pregnant women with significant medical disorders it will gain more importance in the near future. Effective CPR with respect to survival of mother and infant can only be accomplished under optimal conditions. We discuss important pathophysiological alterations during pregnancy and, including recommendations in the available literature, we present a standardized protocol for life support for mother and infant. ⋯ Compared to non-pregnant patients, pregnant women must be placed in a left lateral position immediately. If possible, the decision to perform open-chest CPR has to be made within 15 min of unsuccessful closed-chest CPR. In addition, during late pregnancy there should be no delay in performing an emergency cesarean section, even during CPR.
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Narcotic analgesics, although frequently used in adult patients, are at present relatively minor drugs in pediatric anesthesia. This review discusses indications, clinical applications, and side effects of opiates for pre-medication, induction and maintenance of anesthesia, and postoperative pain therapy in infants and children. Opiates do not represent the agents at first choice for preoperative anxiolysis or amnesia. ⋯ It has been shown, however, that opiate-supplemented general anesthesia can be used for pediatric surgery in an equally effective and safe manner. Finally, there is an essential need for more narcotic analgesics in the treatment of early postoperative pain, when antipyretic-antiphlogistic analgesics alone prove ineffective. It thus seems that in pediatric anesthesia today opiates are prescribed at the wrong time and withheld when they are most urgently needed.
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An incorrect fluid therapy can lead to serious complications considerably more rapidly in children, especially in newborns and infants, than in adults. The pediatric patient has a limited range of compensation for maintenance of fluid and electrolyte balance. Precise knowledge of the physiological age-dependent fluid balance, i.e. the large extracellular space, the developing renal function, the increased metabolism, the acid-base state, the electrolyte balance with the relatively higher sodium and chloride requirements must be the basis of an adequate fluid therapy. ⋯ For intraoperative fluid therapy infusions with an increased sodium concentration (70-100 mmol/l) or Ringer's lactate (Na+ = 130 mmol/l) must be used. On no account must electrolyte-free solutions, e.g., 5-10% glucose, be used intraoperatively, as they can lead to water intoxication. The third-space requirements compensate for the additional losses by drainage, third-space deficits by evaporation and gastric and enteral secretions.(ABSTRACT TRUNCATED AT 250 WORDS)
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Review Historical Article
[Spongia somnifera. Medieval milestones on the way to general and local anesthesia].
Medieval medicine was highly innovative compared to ancient and early modern medicine. The achievements then did not merely comprise new models from the viewpoint of the history of science: development of the university, a well-defined curricula and official degrees, obligatory fees and cost reducing measures. They also included therapeutic procedures like nerve suture, antisepsis, chemotherapy (colchicine), cardiac glycosides (scillaren, convallerin), the development of visual aids (binoculars, magnifying glass, microscope, presbyopic glasses) and further improvement of plastic surgery by the application of delayed grafts (lips/nose plastic). ⋯ This holds true for the extirpation of abdominal tumors as well as for the concept of therapeutic fever. It also pertains to anesthesia, which in the Middle Ages was developed from ancient methods of sedation. Medieval scholars perfected the method into achieving the first total anesthesia (resorption/inhalation anesthesia) and then local anesthesia (application of morphine at the cornea).
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Extracorporeal CO2 elimination (ECCO2-R) is a new approach to the treatment of severe respiratory failure. Gas exchange is separated into oxygen uptake by apneic oxygenation through the natural lungs while CO2 is removed extracorporeally with an artificial organ. The physiological conditions of both processes can thus be optimized. ⋯ This is dependent upon gill reduction and skin armor to prevent evaporation leading to a rise in pCO2 from 3-4 to 40 mmHg and a tenfold increase of serum bicarbonate levels. We believe that the developmental history of respiration justifies the use of a bimodal gas exchange system. It is clinically applied as extracorporeal CO2 removal with membrane lungs (ECCO2-R) or, still under investigation, in a hemodialysis-related procedure (extracorporeal bicarbonate/CO2 removal: ECBicCO2).