Der Anaesthesist
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Postoperative loss of vision is a rare, but devastating complication after non-ocular surgery. It can occur partially or completely and may involve one or both eyes. Since its etiology has not yet been solved, the purpose of this review was to extract potential causes from the case collections reported to propose prophylactic measures. ⋯ Patients with pre-existing arteriosclerotic disease scheduled for spine or cardiac surgery, but also for bilateral neck dissection should be informed preoperatively about the rare possibility of POVL. Postoperatively any visual changes should be immediately referred to an ophthalmologist and treated accordingly.
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Randomized Controlled Trial Comparative Study
[Acute pain management in proximal femoral fractures: femoral nerve block (catheter technique) vs. systemic pain therapy using a clinic internal organisation model].
The aim of this study was to compare safety and efficacy of catheter-mediated femoral nerve block analgesia with systemic pain therapy in patients with proximal femoral fractures in the pre-operative and post-operative setting using a protocol for coordinating pain management. ⋯ All patients presenting with proximal femoral fractures should receive adequate analgesia within the emergency department even prior to radiographic imaging. Femoral nerve block should be considered as the method of choice. The insertion of a femoral nerve block catheter has the dual advantage of early analgesia permitting repeated clinical examination in addition to continued post-operative pain management. The cumbersome logistics inherent in this technique within the clinical setting limits its practical application. An initial single-shot regional nerve block followed by a systemic post-operative analgesia protocol was considered an appropriate alternative. The execution of safe, consistent and appropriate regional nerve block anaesthesia is reliant on formal guidelines and protocols as agreed by the multidisciplinary teams involved with patient-directed pain management and good clinical practice.
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Optimal perioperative fluid management is still controversial. Besides well known perioperative hypovolaemia, hypervolaemia has an influence on perioperative morbidity and mortality, particularly with regard to the patient's medical history, a reduced cardiac and pulmonal function and the operation itself. ⋯ High-risk surgical patients benefit from a time-oriented or/and goal-oriented monitored fluid therapy. In the past only little attention has been concentrated on postoperative fluid management, but may be stimulated by the new concepts of fast track surgery.
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Postoperative pulmonary complications are a major problem after upper abdominal or thoracoabdominal surgery. They lead to a prolonged ICU stay as well as increased costs and are one of the main causes of early postoperative mortality. Even after uncomplicated operations, postoperative hypoxemia occurs in 30-50% of patients. ⋯ The mortality ranges from 10 to 60% according to the severity of respiratory failure. The most important complications are interstitial and alveolar pulmonary edema, atelectasis, postoperative pneumonia, hypoventilation, and aspiration. Preoperative optimization, postoperative prophylaxis according to a stepwise approach, and early mobilization decrease the rate of complications.
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Review
[Value of surfactant replacement therapy in the treatment of acute respiratory distress syndrome].
Acute respiratory distress syndrome (ARDS) is a common, devastating clinical problem arising from a number of conditions, such as pneumonia, trauma or sepsis. Because of its significant mortality and morbidity, ARDS has been in the focus of extensive experimental and clinical research. Since there is little doubt that alterations of the surfactant system contribute to lung dysfunction and the onset of ARDS, several clinical studies examined the therapeutic safety and efficacy of a surfactant replacement therapy. ⋯ However, current data suggest that patients with direct ARDS (e.g. pneumonia, aspiration) could benefit from surfactant replacement therapy rather than patients with indirect ARDS (e.g. sepsis, trauma). Although surfactant replacement therapy has been shown to significantly reduce mortality in neonates with ARDS, there has been no large randomised clinical trial showing that exogenous surfactant improves outcome in adults with respiratory failure. Therefore, surfactant therapy cannot be recommended for routine clinical use in adult patients and has to be considered as a last resort treatment.