Critical care nursing quarterly
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Early volume resuscitation of a patient with sepsis has been shown to reduce morbidity, mortality, and healthcare resource consumption. Hypertonic saline offers a theoretically viable option for volume resuscitation. This article reviews the current information available regarding fluid resuscitation in patients with sepsis, with emphasis on the use of hypertonic saline.
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Sleep is essential to human life. Sleep patterns are significantly disrupted in patients who are hospitalized, particularly those in the intensive care unit. Sleep deprivation is pervasive in this patient population and impacts health and recovery from illness. ⋯ Therapy with attempts to minimize sleep disruption should be integrated among all of the caregivers. Minimization of analgesics and other medications known to adversely affect sleep should also be ensured. Although further research in the area of sleep deprivation in the intensive care unit setting needs to be conducted, effective protocols can be developed to minimize sleep deprivation in these settings.
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Infections are considered nosocomial if they occur 48 hours or more after hospital admission or within 30 days after discharge. One third of these infections are considered preventable. Many studies have shown that with proper education and use of strict guidelines, we can prevent nosocomial infections in the intensive care unit. In this article, we will review the literature on preventing catheter-associated urinary tract infection, central line-associated blood stream infection, and ventilator-associated pneumonia.
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Physiologic stress associated with illness and hospitalization is known to result in gastrointestinal ulceration, especially among the critically ill. The complication of this stress-related mucosal disease could be prevented with appropriate application of pharmacologic prophylaxis. Vigilance by the nursing staff is required to properly detect and manage the condition.
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Comparative Study
An exploratory examination of medical gas booms versus traditional headwalls in intensive care unit design.
Should power, medical gases, and monitoring and communications systems be located in a headwall or a ceiling-mounted boom in intensive care unit (ICU) rooms? Often, only the financial costs could be determined for the options, whereas data regarding its potential influence on teamwork, safety, and efficiency are lacking. Hence, purchase decisions are more arbitrary than evidence based. This study simulated care delivery in settings with a traditional headwall and a ceiling boom. ⋯ Simulation runs involving 6 scenarios were conducted with the voluntary participation of 2 physicians, 2 nurse practitioners, 2 respiratory therapists, and 4 registered nurses at a children's tertiary care center in December 2007. Analysis suggests that booms have an advantage over headwalls in case of high-acuity ICU patients and when procedures are performed inside patient rooms. However, in case of lower-acuity ICU patients, as well as when procedures are not typically conducted in the patient room, booms may not provide a proportionate level of advantage when compared with the additional cost involved in its procurement.