Der Anaesthesist
-
Deep brain stimulation (DBS) provides a very effective treatment for a number of neurological diseases including Parkinson's disease, movement disorders and epilepsy. In DBS microelectrodes are positioned in defined cerebral target areas and connected to a pacemaker. It is most often performed as an awake craniotomy with intraoperative testing. ⋯ With increasing numbers of DBS procedures, anesthesiologists are more often faced with patients carrying brain pacemakers. For anesthesia the characteristics of the disease as well as the respective long-term medication have to be considered. In addition, the rules for handling patients with pacemakers need to be followed to avoid both dysfunction of the generator and tissue damage due to overheating of the electrodes.
-
Hepatorenal syndrome (HRS) is a unique form of acute renal failure occurring in patients with advanced cirrhosis or acute liver failure. In patients with ascites the incidence of HRS is 8 % and in end-stage liver disease 75 % of patients suffer from HRS. Vasodilation of splanchnic arteries with subsequent decrease of effective blood volume, arterial pressure and renal vasoconstriction is hypothesized to be the central pathophysiological mechanism leading to acute renal failure. ⋯ Type 1 HRS has the worst prognosis. Treatment options include pharmacological treatment with vasoconstrictors and albumin and placement of transjugular intrahepatic portosystemic shunts (TIPS) but can only partially improve the survival rate. Liver transplantation is the ultimate and only definitive treatment of patients with HRS.
-
Blood transfusions are commonly viewed as life-saving interventions; however, current evidence shows that blood transfusions are associated with a significant increase of morbidity and mortality in a dose-dependent relationship. Not only explanatory models of basic research but also the results from randomized controlled trials suggest a causal relationship between blood transfusion and adverse outcome. ⋯ Patient Blood Management (PBM) allows transfusion rates to be dramatically reduced through correcting anemia by stimulating erythropoiesis, minimization of perioperative blood loss and harnessing and optimizing the physiological tolerance of anemia. A resolution of the World Health Assembly has endorsed PBM and therefore morbidity and mortality should be significantly reduced by lowering of the currently high blood utilization rate of allogeneic blood products in Austria, Germany and Switzerland.
-
Inhaled anesthetics are inhaled via the lungs. They subsequently pass through the alveolocapillary membrane and diffuse into the blood to finally target the central nervous system and induce anesthesia. This principle of anesthesia induction was first described for diethylether in 1847. ⋯ Depression of CO2 and hypoxia-induced respiration are other serious side effects. Further side effects are liver and kidney related but they are rare and not induced by anesthetics per se but preferentially by toxic metobolites. Another promising inhalative anesthetic is xenon which fulfils many aspects of an ideal inhalative anesthetic.
-
Nerve injury after peripheral regional anesthesia is rare and is not usually permanent. Some authors believe that inducing peripheral nerve blocks in patients during general anesthesia or analgosedation adds an additional risk factor for neuronal damage. This is based on published case reports showing that there is a positive correlation between paresthesia experienced during regional anesthesia and subsequent nerve injury. ⋯ Currently anesthesiologists are free to follow personal preferences in this matter as there is no good evidence favoring one approach over the other. The risk of systemic toxicity of local anesthetic agents is not higher in patients who receive regional anesthesia under general anesthesia or deep sedation. Finally, in children and uncooperative adults the administration of peripheral nerve blocks under general anesthesia or deep sedation is widely accepted.