1.
Metabolic and nutrition support in the chronic critical illness syndrome.
Schulman, RC, Mechanick, JI
Respiratory care. 2012;(6):958-77; discussion 977-8
Abstract
Technological innovations in the ICU have led to artificially prolonged life, with an associated cost. Chronic critical illness (CCI) occurs in patients with prolonged mechanical ventilation and allostatic overload, and is associated with a discrete and consistent metabolic syndrome. Metabolic interventions are extrapolated from clinical critical care research, scientific theory, and years of CCI patient care experience. Intensive metabolic support (IMS) is a multi-targeted approach consisting of tight glycemic control with intensive insulin therapy, early and adequate nutrition therapy, nutritional pharmacology, management of metabolic bone disease, and meticulous attention to other endocrine/metabolic derangements. Ideally, IMS should be under the supervision of a metabolic support consultative team. Further research specifically focused on the CCI population is needed to validate this current approach.
2.
[Tumor lysis syndrome in intensive therapy: diagnostic and therapeutic encare].
Burghi, G, Berrutti, D, Manzanares, W
Medicina intensiva. 2011;(3):170-8
Abstract
The tumor lysis syndrome (TLS) is a life-threatening complication caused by the massive release of nucleic acids, potassium and phosphate into the blood. This complication is the result of tumor cell lysis, which may occur due to treatment of drug sensitive and is characterized by rapid capacity of proliferation, that is often hematological origin. Moreover, the TLS can be observed before starting the treatment due to spontaneous tumor cell death, and frequently worsens when chemotherapy is initiated. TLS has high mortality, so that its prevention continues to be the most important therapeutic measure. In the intensive care unit (ICU), physicians should be aware of the clinical characteristics of TLS, which results in severe electrolyte metabolism disorders, especially hyperkalemia, hyperphosphatemia and hypocalcemia, and acute kidney injury which is a major cause of ICU mortality. An adequate strategy for the management of the TLS, combining hydration, urate oxidase, and an early admission to ICU can control this complication in most patients. The aim of this review is to provide diagnostic tools that allow to the ICU physician to recognize the population at high risk for developing the TLS, and outline a proper strategy for treating and preventing this serious complication.