Critical care medicine
-
Critical care medicine · Jul 2007
Multicenter StudyResidents feel unprepared and unsupervised as leaders of cardiac arrest teams in teaching hospitals: a survey of internal medicine residents.
We aimed to determine internal medicine residents' perceptions of the adequacy of their training to serve as in-hospital cardiac arrest team leaders, given the responsibility of managing acutely critically ill patients and with recent evidence suggesting that the quality of cardiopulmonary resuscitation provided in teaching hospitals is suboptimal. ⋯ The results suggest that residents perceive deficits in their training and supervision to care for critically ill patients as cardiac arrest team leaders. This raises sufficient concern to prompt teaching hospitals and medical schools to consider including more appropriate supervision, feedback, and further education for residents in their role as cardiac arrest team leaders.
-
Critical care medicine · Jul 2007
PF4 ENHANCED assay for the diagnosis of heparin-induced thrombocytopenia in complex medical and surgical patients.
To evaluate the sensitivity and specificity of the PF4 ENHANCED (GTI Diagnostics, Waukesha, WI) enzyme-linked immunosorbent assay for heparin-induced thrombocytopenia using the carbon-14 serotonin-release assay as the reference method. ⋯ Because of its high sensitivity, we believe the PF4 ENHANCED enzyme-linked immunosorbent assay should be used to identify heparin-induced thrombocytopenia in patients with multiple potential causes of thrombocytopenia, although false-positive results will not be uncommon.
-
Critical care medicine · Jul 2007
A protocol for high-frequency oscillatory ventilation in adults: results from a roundtable discussion.
Ventilator settings typically used for high-frequency oscillatory ventilation (HFO) in adults provide acceptable gas exchange but may not take best advantage of its lung-protective aspects. We provide guidelines for HFO in adults with acute respiratory distress syndrome that should optimize the lung-protective characteristics of this ventilation mode. ⋯ Modification of the goals and tactics of HFO use may better protect against ventilator-associated lung injury. Further clinical trials are needed to compare the effects on patient outcome of the best use of HFO compared to the most protective use of conventional modes in adult acute respiratory distress syndrome.
-
Critical care medicine · Jul 2007
Comparative StudyComparative effects of early versus delayed use of norepinephrine in resuscitated endotoxic shock.
To assess hemodynamic, tissue oxygenation, and tissue perfusion changes by comparing traditional therapy (fluid resuscitation followed by vasopressor treatment) and alternative therapy (early vasopressor treatment) in a hyperkinetic and sedated model of endotoxic shock. ⋯ The use of norepinephrine was associated with improved mean arterial pressure, sustained aortic and mesenteric blood flow, and better tissue oxygenation when compared with fluid resuscitation alone, irrespective of time of administration. The early use of norepinephrine plus volume expansion was associated with a higher proportion of blood flow redistributed to the mesenteric area, lower lactate levels, and less infused volume. Thus, the early use of norepinephrine is safe and may decrease the need for volume resuscitation.
-
Critical care medicine · Jul 2007
Comparative StudyBiologically variable ventilation improves gas exchange and respiratory mechanics in a model of severe bronchospasm.
Mechanical ventilation can be lifesaving for status asthmaticus, but how best to accomplish mechanical ventilation is unclear. Biologically variable ventilation (mechanical ventilation that emulates healthy variation) and conventional control mode ventilation (monotonously regular) were compared in an animal model of bronchospasm to determine which approach yields better gas exchange and respiratory mechanics. ⋯ In this experimental model, biologically variable ventilation was superior to control mode ventilation in terms of gas exchange and respiratory mechanics during severe bronchospasm.