Minerva anestesiologica
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Minerva anestesiologica · Jun 2006
ReviewAcquired weakness in the ICU: critical illness myopathy and polyneuropathy.
Illnesses commonly encountered in the ICU, such as sepsis, have frequently been associated with neuromuscular weakness and may play a role in the development of CIM and CIP, whose incidence in the critically ill is greater than initially reported. Although difficult to diagnose from history and clinical/laboratory findings alone, the use of electromyographic and nerve conduction testing is helpful in establishing these diagnoses. ⋯ Acquired neuromuscular weakness in the ICU affects a significant number of patients and may continue to affect their quality of life long after discharge. Although diagnostic techniques are readily available, additional research is necessary to obtain adequate prognostic information and therapeutic options for these patients.
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Neuraxial blockade is commonly used to abolish sensations elicited by noxious stimuli during surgical procedures. Proven advantages of combined anesthesia include early recovery from general anesthesia and postoperative analgesia, together with likely decreases in blood loss, cardiac dysrhythmias, or ischemic events and postoperative deep vein thrombosis. The side effects of the technique are related to the dose or site of local anesthetic administration and to light general anesthesia, which can result in awareness during surgery. ⋯ Neuraxial blockade reduces sedative and anesthetic requirements by decreasing ascending sensory input into the brain. This has important clinical implications, as anesthetists should expect to reduce anesthetic and sedative drug doses during neuraxial blockade, unless the blockade involves lower dermatomes alone. Clinical practice of anesthesia is a polypharmacy, wherein the anesthetic state is the net result of the action of different drugs and their interaction in the presence of a surgical stimulus.
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Minerva anestesiologica · Jun 2006
ReviewMetabolic treatment of critically ill patients: energy balance and substrate disposal.
Oxidation of substrates is the main biochemical process used by the human body to produce energy. Different substrates (carbohydrates, lipids, and proteins) have different effects on oxygen consumption and carbon dioxide production: during the critical phase of pathologies it could be relevant pay attention to the use of various nutrients, that have some altered effect respect to the normal subjects metabolism, and during the length of metabolic treatment, too. ⋯ Adequate amount of energy intake in carbohydrates determine an increase of RQ, that means a shift from a more lipid-based to a more glucose-based oxidation. Composition of dietary intake can be usefully different for each pathology, and also for different periods of the same pathology, because critically ill patients have a variety of metabolic needs during their stay in ICU.
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Oxygen supply to all tissues is possible only in a condition of adequate blood circulation. Oxygen demand is the driving force that is responsive of hemodynamic adjustment. The human body acts on four modulators (intravascular volume, inotropy, vasoactivity, chrono-tropy) in order to adjust the hemodynamic state. ⋯ In this presentation it will be briefly analyzed the most common parameters used in the ICU. Arterial pressure, central venous pressure, pulmonary artery catheter derived parameters, SvO2 and their relation with organ perfusion are considered and positive and negative aspects of this type of monitoring is reviewed. Starting from these considerations we would like to underline the importance of understanding the physiological basis of monitoring and the correct interpretation of data in order to have improvement on patient outcome.