Resuscitation
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Tracheal intubation is performed for urgent airway control in injured patients. Current methods of training include working on cadavers and manikins, which lack the realism of a living human being. Work in this field has been limited due to the complex nature of simulating in real-time, the interactive forces and deformations which occur during an actual patient intubation. ⋯ The haptic device along with the real-time performance of the simulator give it both visual and physical realism. The three-dimensional viewing and interaction available through virtual reality make it possible for physicians, pre-hospital personnel and students to practice many endotracheal intubations without ever touching a patient. The ability for a medical professional to practice a procedure multiple times prior to performing it on a patient will both enhance the skill of the individual while reducing the risk to the patient.
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Comparative Study
Procalcitonin serum levels after out-of-hospital cardiac arrest.
The time course of Procalcitonin (PCT) serum levels was assessed in cardiac arrest survivors and compared with S-100 serum levels concerning their predictive values for neurological outcome. PCT and S-100 serum levels were analyzed serially on admission and during the following 3 days after hospitalization in 23 patients successfully resuscitated from out-of-hospital cardiac arrest. At day 14 patients were divided into groups according to the Glasgow-Outcome-Scale (GOS): one group with bad neurological outcome (GOS 1-3) and one group with good neurological outcome (GOS 4-5). ⋯ Highest levels for S-100 were found immediately after hospitalization (3.4 +/- 3.8 vs. 0.7 +/- 0.3 microg/l, P=0.003), and for PCT at day 1 (37 +/- 103 vs. 0.2 +/- 0.2 microg/l, P=0.0002). The results show that PCT serum levels are possibly elevated in patients with bad neurological outcome after cardiac arrest, without signs of severe infection or concomitant sepsis. Based on this observation, studies on larger numbers of patients should prove the predictive value of PCT in those patients.
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Prolongation of the QT interval is a known risk factor for syncope, seizures and sudden cardiac death. Most patients with QT prolongation have an acquired cause, but congenital forms of QT prolongation are being increasingly recognized. ⋯ Here, a young patient with out-of-hospital cardiac arrest secondary to congenital LQTS illustrates critical exceptions to the current ACLS treatment algorithms for ventricular fibrillation and unstable ventricular tachycardia when QT prolongation is congenital in origin. A clarified ACLS algorithm is proposed.
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Sufficiently strong defibrillation shocks will cause temporary or permanent damage to the heart. Weak defibrillation shocks do not cause any damage to the heart but also do not defibrillate. A relevant and practical question is what range of shock energies is most likely to defibrillate while not causing damage to the heart. ⋯ Although many patients can be defibrillated with 150 J (2.2 J/kg) biphasic shocks, some patients may require biphasic shocks up to 360 J (5 J/kg) to be defibrillated. Studies still need to be performed comparing the efficacy and damaging effects of 360 J biphasic shocks to 150 J biphasic shocks. Until those studies are completed, it seems reasonable to use the same 360 J (5 J/kg) energy limit for biphasic shocks as for monophasic shocks.