Resp Care
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There has been a growing interest in the use of volunteer clinical preceptors to provide clinical instruction to respiratory therapy (RT) students. However, many RT preceptors have had little or no training in preceptorship. We sought to identify the preceptor training needs of programs that lead to the Registered Respiratory Therapist or Certified Respiratory Therapist credential (RT programs). ⋯ A standardized preceptor-training program is needed to improve the quality of preceptorship and assure that RT programs prepare graduates for 21st-century RT practice.
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What is the legacy of the National Institutes of Health Acute Respiratory Distress Syndrome Network?
It has been almost 15 years since the National Institutes of Health created the Acute Respiratory Distress Syndrome Clinical Trials Network (ARDS Network) and nearly a decade since the completion of the landmark low-tidal volume (V(T)) trial. In retrospect, the ARDS Network had a profound impact on the design and conduct of clinical trials in critical care. It represented the first time the federal government funded a clinical trials network devoted to Phase-III testing of important, non-pharmacologic therapies. ⋯ Part of the ARDS Network's legacy surely will have been the opening of a dialog regarding the design of clinical trials in critical care, as well as a concerted effort to improve the protection of subjects enrolled into those trials. Finally, the respiratory care profession itself has benefited, owing both to its critical role in the successful implementation of complicated therapist-driven protocols and also to the ARDS Network's novel practice of utilizing respiratory therapists as clinical coordinators. This has raised the profile and enhanced the stature of the respiratory care profession.
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The cardiopulmonary physiology of dinosaurs-and especially of the long-necked sauropods, which grew much larger than any land animals before or since-should be inherently fascinating to anyone involved in respiratory care. What would the blood pressure be in an animal 12 m (40 ft) tall? How could airway resistance and dead space be overcome while breathing through a trachea 9 m (30 ft) long? The last decade has seen a dramatic increase in evidence bearing on these questions. Insight has come not only from new fossil discoveries but also from comparative studies of living species, clarification of evolutionary relationships, new evaluation techniques, computer modeling, and discoveries about the earth's ancient atmosphere. ⋯ Circulatory considerations leave little doubt that the dinosaurs had 4-chambered hearts. Birds evolved from dinosaurs, and the avian-type air-sac respiratory system, which is more efficient than its mammalian counterpart, may hold the answer to the breathing problems posed by the sauropods' very long necks. Geochemical and other data indicate that, at the time the dinosaurs first appeared, the atmospheric oxygen concentration was only about half of what it is today, and development of the avian-type respiratory system may have been key in the dinosaurs' evolutionary success, enabling them to out-compete the mammals and dominate the land for 150 million years.