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Acute kidney injury: A critical care perspective for orthotopic liver transplantation.
MacDonald, AJ, Karvellas, CJ
Best practice & research. Clinical anaesthesiology. 2020;(1):69-78
Abstract
Acute kidney injury (AKI) is associated with high perioperative mortality in patients undergoing liver transplantation (LT). In the era of Model of End-stage Liver Disease score-based allocation, more patients with impaired renal function are receiving LT. The majority of preoperative AKI is secondary to azotemia, including hepatorenal syndrome - a progressive form of renal impairment unique to liver failure. Prompt recognition and initiation of cause-directed therapies are central to improving post-transplant survival. Given that, the healthcare providers must develop an expertise in liver failure-related renal complications, specifically their management and perioperative implications. Notably, AKI may complicate intraoperative course, exacerbating hemodynamic instability, metabolic acidosis, and electrolyte and coagulation abnormalities. Adjunctive intraoperative continuous renal replacement therapy has been employed; however, prospective studies remain necessary to validate potential benefits.
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2.
Is slower advancement of enteral feeding superior to aggressive full feeding regimens in the early phase of critical illness.
Lheureux, O, Preiser, JC
Current opinion in clinical nutrition and metabolic care. 2020;(2):121-126
Abstract
PURPOSE OF REVIEW An excessive caloric intake during the acute phase of critical illness is associated with adverse effects, presumably related to overfeeding, inhibition of autophagy and refeeding syndrome. The purpose of this review is to summarize recently published clinical evidence in this area. RECENT FINDINGS Several observational studies, a few interventional trials, and systematic reviews/metaanalyses were published in 2017-2019. Most observational studies reported an association between caloric intakes below 70% of energy expenditure and a better vital outcome. In interventional trials, or systematic reviews, neither a benefit nor a harm was related to increases or decreases in caloric intake. Gastrointestinal dysfunction can be worsened by forced enteral feeding, whereas the absorption of nutrients can be impaired. SUMMARY Owing to the risks of the delivery of an excessive caloric intake, a strategy of permissive underfeeding implying a caloric intake matching a maximum of 70% of energy expenditure provides the best risk-to-benefit ratio during the acute phase of critical illness.
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3.
Cardiac Intensive Care Unit Management of Patients After Cardiac Arrest: Now the Real Work Begins.
Randhawa, VK, Grunau, BE, Debicki, DB, Zhou, J, Hegazy, AF, McPherson, T, Nagpal, AD
The Canadian journal of cardiology. 2018;(2):156-167
Abstract
Survival with a good quality of life after cardiac arrest continues to be abysmal. Coordinated resuscitative care does not end with the effective return of spontaneous circulation (ROSC)-in fact, quite the contrary is true. Along with identifying and appropriately treating the precipitating cause, various components of the post-cardiac arrest syndrome also require diligent observation and management, including post-cardiac arrest neurologic injury and myocardial dysfunction, systemic ischemia-reperfusion phenomenon with potential consequent multiorgan failure, and the various sequelae of critical illness. There is growing evidence that an early invasive approach to coronary reperfusion with percutaneous coronary intervention, together with active targeted temperature management and optimization of hemodynamic, ventilator, and metabolic parameters, may improve survival and neurologic outcomes in cardiac arrest survivors. Neuroprognostication is complex, as are survivorship issues and long-term rehabilitation. Our paramedics, emergency physicians, and resuscitation specialists are all to be congratulated for ever-increasing success with ROSC… but now the real work begins.
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4.
[Pharmacogenetics in anesthesia and intensive care medicine : Clinical and legal challenges exemplified by malignant hyperthermia].
Klingler, W, Pfenninger, E
Der Anaesthesist. 2016;(5):380-90
Abstract
Pharmacotherapy is a key component of anesthesiology and intensive care medicine. The individual genetic profile influences not only the effect of pharmaceuticals but can also completely alter the mode of action. New technologies for genetic screening (e.g. next generation sequencing) and increasing knowledge of molecular pathways foster the disclosure of pharmacogenetic syndromes, which are classified as rare diseases. Taking into account the high genetic variability in humans and over 8000 known rare diseases, up to 20 % of the population may be affected. In summary, rare diseases are not rare. Most pharmacogenetic syndromes lead to a weakening or loss of pharmacological action. In contrast, malignant hyperthermia (MH), which is the most relevant pharmacogenetic syndrome for anesthesia, is characterized by a pharmacologically induced overactivation of calcium metabolism in skeletal muscle. Volatile anesthetic agents and succinylcholine trigger life-threatening hypermetabolic crises. Emergency treatment is based on inhibition of the calcium release channel of the sarcoplasmic reticulum by dantrolene. After an adverse pharmacological event patients must be informed and a clarification consultation must be carried out during which the hereditory character of MH is explained. The patient should be referred to a specialist MH center where a predisposition can be diagnosed by the functional in vitro contracture test from a muscle biopsy. Additional molecular genetic investigations can yield mutations in the genes for calcium-regulating proteins in skeletal muscle, e.g. ryanodine receptor 1 (RyR1) and calcium voltage-gated channel subunit alpha 1S (CACNA1S). Currently, an association to MH has only been shown for 35 mutations out of more than 400 known and probably hundreds of unknown genetic variations. Furthermore, MH predisposition is not excluded by negative mutation screening. For anesthesiological patient safety it is crucial to identify individuals at risk and warn genetic relatives; however, the legal requirements of the Patients Rights Act and the Human Genetic Examination Act must be strictly adhered to. Specific features of insurance and employment law must be respected under consideration of the Human Genetic Examination Act.
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5.
[Efficiency of intensive care with cytoflavin in patients of advanced age in combined traumatic brain injury].
Lebedeva, EA, Belousova, ME, Kurtasov, AA, Nemkova, ZA, Kaminskiĭ, MIu, Popov, RV, Trofimovich, SL
Advances in gerontology = Uspekhi gerontologii. 2014;(3):578-83
Abstract
Research objective--determination of efficiency of intensive care with inclusion Cytoflavin in patients of old age in combined traumatic brain injury. A prospective controlled blind randomized study was conducted. In 1st group (21 people) the patients received a standard intensive care, in 2nd group (18 persons) Cytoflavin was included in complex intensive care. Using Cytoflavin starting from 2 days post-traumatic period (with the correction of blood circulation and respiration) had antioxidant and detoxification effects, contributed to the recovery rate of free radical and metabolic processes, reduced the degree of impairment in the structural-functional state of membranes and restored the conformational structure of membrane proteins in the earlier periods. Reduction in reactions of disadaptation led to regression of multiple organ dysfunctions, restoration the level of consciousness at an earlier date. The number of cases of severe respiratory distress syndrome decreased.