Pediatr Crit Care Me
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Pediatr Crit Care Me · Nov 2005
CommentToward a new paradigm in hospital-based pediatric education: the development of an onsite simulator program.
The low incidence of crises in pediatrics, coupled with logistic issues and restricted work hours for trainees, hinders opportunities for frequent practice of crisis management and teamwork skills. We hypothesized that a dedicated simulator suite contiguous to the intensive care unit (ICU) would enhance the frequency and breadth of critical-incident training for a range of clinicians. ⋯ An onsite and comprehensive simulation program can significantly increase the opportunities for clinicians from multiple disciplines, in the course of their daily routines, to repetitively practice responses to pediatric medical crises. After an initial capital investment, the training appears to be cost-effective. Hospital-based simulator suites may point the way forward as a new paradigm for the effective education of today's busy clinicians.
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Pediatr Crit Care Me · Nov 2005
Recombinant human Clara cell secretory protein in acute lung injury of the rabbit: effect of route of administration.
To test the hypothesis that intratracheal instillation of Clara cell secretory protein (CC 10) to the lung may afford greater protection than intravenous administration from ventilator-induced lung inflammation. ⋯ Both intravenous and intratracheal rhCC 10 delivery, after surfactant therapy, effectively decrease lung inflammation vs. surfactant alone. While supporting the physiologic profile, intratracheal instillation results in greater, maintained lung and plasma rhCC 10 pools compared with intravenous administration. As such, intratracheal instillation of rhCC 10 may afford more prolonged protection against lung inflammation than intravenous administration.
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Pediatr Crit Care Me · Nov 2005
Effect of low-bias flow oscillation with partial liquid ventilation on fluoroscopic image analysis, gas exchange, and lung injury.
To evaluate the effect of low-bias flow oscillation (LBFO) with partial liquid ventilation (PLV) on perfluorochemical evaporation, histopathology, and oxidative tissue damage in an animal model of acute lung injury. ⋯ LBFO-PLV is a viable mode of ventilation in a model of acute lung injury and is associated with significant preservation of perflubron in comparison with high-frequency oscillatory ventilation-PLV. The lower evaporative losses during LBFO-PLV were associated with improved histology scores.