International anesthesiology clinics
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While adverse outcomes linked to anesthesia are uncommon in healthy patients, they do occasionally happen. There is rarely a single cause. Anesthesia and surgery bring the patient into a complex world in which innumerable small failings can converge to produce an eventual catastrophe. ⋯ Sometimes these errors are due to faulty vigilance or incompetence, but usually they are made by appropriately trained, competent practitioners. Anesthesiologists can err in many ways, and recognizing these ways makes it easier to analyze the events leading to an anesthetic accident. More importantly, it better equips us to eliminate or minimize them in the future--and this is the real challenge.
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Lidocaine, tetracaine, and bupivacaine are the local anesthetic agents most commonly employed for spinal anesthesia in the U. S. Lidocaine provides a short duration of anesthesia and is primarily useful for surgical and obstetrical procedures lasting less than one hour. ⋯ Lidocaine and bupivacaine do not appear to benefit as much from the addition of vasoconstrictors. In general, the local anesthetic agents that are currently available for spinal anesthesia provide significant versatility. By carefully considering the planned surgical procedure, the surgeon's requirements, and the patient's characteristics (e.g., age, height, gravidity), and by understanding the factors that influence spinal anesthesia, the anesthesiologist can select a local anesthetic agent that will assure adequate and satisfying spinal anesthesia.
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We now have the technology through reflectance spectrophotometry to evaluate and display continuously mixed venous oxygen saturation SvO2 through use of a modified pulmonary artery catheter. Adding this method of assessing the balance of oxygen supply and demand to our standard armamentarium of hemodynamic monitoring may improve our ability to diagnose and treat cardiovascular aberrations at an earlier stage than was previously possible. Through analysis of the Fick equation, it can be seen that SvO2 depends upon the cardiac output, the arterial oxygen saturation, the hemoglobin level, and the rate of oxygen consumption. ⋯ As seen in the variety of patient care examples cited above, the usefulness of SvO2 monitoring continues to grow. It appears that there are no intrinsic risks associated with SvO2 monitoring beyond those of customary PA monitoring. This new technology provides us with online information not previously available, at an associated cost that needs to be further examined.
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By taking an organized approach to problem-solving in the PACU, as part of an overall hospital-mandated quality assurance program, PACU staff can increase patient safety, reduce risk, and improve the quality of care.