Lasers Surg. Med. 42:274-281, 2010. (C) 2010 Wiley-Liss, Inc.”
“Observational studies have consistently revealed wide variation in nutritional practices across intensive care units and indicated that the provision of adequate nutrition to critically ill patients is suboptimal.
To date, the potential role of critical care nurses in implementing nutritional guideline recommendations and improving nutritional therapy has received little consideration. Factors that influence nurses’ nutritional practices include the lack of guidelines or conflicting evidence-based recommendations pertaining to nurses’ practice, strategies for implementing guidelines that are not tailored ACY-241 molecular weight selleck products to barriers nurses face when feeding patients, strategies to communicate best evidence that do not capitalize on nurses’ preference for seeking information through social interaction, prioritization of nutrition in initial and continuing nursing education, and a lack of interdisciplinary team collaboration in the intensive care unit when decisions on how to feed patients are made. Future research and quality improvement strategies are required
to correct these deficits and successfully empower nurses to become nutritional champions at the bedside. Using nurses as agents of change will help standardize nutritional practices and ensure that critically ill patients are optimally fed. (American Journal of Critical Care. 2012;21(3):186-194)”
“The Russian wheat aphid, Diuraphis noxia (Kurdjumov), is a significant pest of small grains in the United States and worldwide. There is an increasing need for quality population dynamic models to aid in development of integrated pest management strategies. Unfortunately, there exists high variability in published data regarding
basic life history traits that frequently direct model parameterization. Metadata were analyzed to develop relationships between temperature and reproductive and developmental traits of D. noxia. Specifically, functions were developed between temperature and the following traits: lifespan, fecundity, fecundity rate, pre-nymphipositional period, reproductive period, and intrinsic rate of increase. Lower and upper temperature GSK2118436 research buy reproductive thresholds were calculated as 0.6 and 36.9 degrees C, respectively. The lower temperature developmental threshold was calculated as -0.69 degrees C. Modeled longevity reached its maximum at approximate to 80 d. Meta-analysis indicates maximum fecundity at approximate to 18.5 degrees C, with a maximum fecundity rate of approximate to 2.1 nymphs per day over the nymphipositional period. The calculated maximum total fecundity was approximate to 55 nymphs per female. The maximum reproductive period was calculated to be 29.9 d.