Medicina intensiva
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Review Comparative Study
Pressure versus volume controlled modes in invasive mechanical ventilation.
The first generation of mechanical ventilators were controlled and cycled by pressure. Unfortunately, they did not allow control of the delivered tidal volume under changes in the dynamics of the respiratory system. ⋯ In addition, new evidence became available, leading to the development of pulmonary protective strategies aiming at preventing the progression of ventilator-induced lung injury. This review provides a detailed description of the control of pressure or volume using certain ventilatory modes, and offers a general view of their advantages and disadvantages, based on the latest available evidence.
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Critically ill patients are often affected by infections produced by Pseudomonas, which can be a cause of sepsis and renal failure. Early and adequate antibiotic treatment at correct dosage levels is crucial. ⋯ It must be taken into account that many antibiotics are largely cleared by continuous renal replacement therapies (CRRT). The aim of this review is to assess the clinical evidence on the pharmacokinetics and dosage recommendations of the main antibiotic groups used to treat Pseudomonas spp. infections in critically ill patients subjected to CRRT.
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The use of extracorporeal techniques in cardiopulmonary support has spread in the last 20 years. ECMO (extracorporeal membrane oxygenation) devices are the most commonly employed option, and have been used for years in lung transplant programs. ⋯ The complications of ECMO have been minimized thanks to the technological improvements found in the latest devices, though renal failure, infections, bleeding, and vascular and mechanical complications are still reported in many studies. At present there is less controversy regarding the use of cardiorespiratory assists with ECMO as an alternative in decompensated patients who are on the waiting list, referred to the intra- and postoperative periods of lung transplantation.
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Seriously ill patients frequently present intra-abdominal hypertension (IAH) and abdominal compartment syndrome (ACS) as complications, and the associated mortality is very high. This review offers an update on the most controversial aspects of these entities: factors favoring their appearance, the most common causes, prognosis, and methods of measuring intra-abdominal pressure (IAP), physiopathological consequences in relation to the different organs and systems, and the currently accepted treatment measures (medical and/or surgical). Simultaneously to the strictly physical mechanisms of injury, such as direct compression of intra-abdominal organs and vessels, the transmission of IAP to other compartments, and the drop in cardiac output, a series of immune-inflammatory mediators generated in the intestine itself may also intervene. Hypoperfusion, sustained ischemia and the ischemia-reperfusion phenomenon, would act upon the microbiota, intestinal epithelium and intestinal immune system, triggering a systemic inflammatory response and multiorgan dysfunction that appears in the final stages of ACS.
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Cardiac arrest is one of the major current challenges, due to both its high incidence and mortality and the fact that it leads to severe brain dysfunction in over half of the survivors. The so-called coronary origin Bridge Code is presented, based on the international resuscitation recommendations (2005, 2010). In accordance with a series of strict predictive criteria, this code makes it possible to: (1) select refractory CPR patients with a high or very high presumption of underlying coronary cause; (2) evacuate the patient using mechanical chest compressors [LucasTM, Autopulse®], maintaining coronary and brain perfusion pressures; (3) allow coronary revascularization access during resuscitation maneuvering (PTCA during ongoing CPR); (4) induce early hypothermia; and (5) facilitate post-cardiac arrest intensive care. In the case of treatment failure, the quality of hemodynamic support makes it possible to establish a second bridge to non-heart beating organ donation.