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ANA Responds To Recent Negative Portrayals Of TV Nurses Who Violate Nursing Code Of Ethics
At a time when the entertainment industry is perpetuating inaccurate portrayals of nursing in the new television shows "Nurse Jackie" and "HawthoRNe," ANA"s ethics books are especially relevant to all registered nurses (RNs). The fictional nurses are shown violating the nursing Code of Ethics by participating in activities ranging from on-the-job drug use to inappropriate nurse/patient contact in these shows. The very heart of nursing is mischaracterized as nurses are portrayed engaging in irresponsible and often criminal acts for entertainment purposes. ANA sets the ethical standards for nurses in the U.S. and internationally with its highly respected Code of Ethics for Nurses with Interpretive Statements, and is deeply concerned about the lasting impact these negative portrayals may have on the nursing profession.
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Allergan Receives Complete Response Letter For BOTOX(R) (Botulinum Toxin Type A) For Treatment Of Upper Limb Spasticity In Adults
Allergan, Inc. (NYSE:AGN) today announced it has received a complete response letter from the U.S. Food and Drug Administration (FDA) regarding the Company"s Supplemental Biologics License Application (sBLA) for BOTOX® (Botulinum Toxin Type A) to treat upper limb spasticity in post-stroke adults. Allergan submitted its sBLA for this indication in the third quarter of 2008.
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Income, Education, Important Factors In Heart Disease Risk
Doctors who ignore the socioeconomic status of patients when evaluating their risk for heart disease are missing a crucial element that might result in inadequate treatment, according to a University of Rochester Medical Center study published in the June 2009 American Heart Journal.
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Breakthrough In The Quantum Control Of Light Could Impact Drug Design

Researchers at UC Santa Barbara have recently demonstrated a breakthrough in the quantum control of photons, the energy quanta of light. This is a significant result in quantum computation, and could eventually have implications in banking, drug design, and other applications. In a paper published in the journal Nature, UCSB physics researchers Max Hofheinz, John Martinis, and Andrew Cleland document how they used a superconducting electronic circuit known as a Josephson phase qubit to prepare highly unusual quantum states using microwave-frequency photons. The breakthrough is the result of four years of work in the laboratories of Cleland and Martinis. The project is funded by the federal agency called the Intelligence Advanced Research Projects Activity, or IARPA. The government is particularly interested in quantum computing because of the way banking and other important communications are currently encrypted. Using large numbers, with hundreds of digits, encryption codes are changed daily and would take years of traditional computing to break. Quantum computing could potentially break those codes quickly, destroying current encryption schemes. In the experiments, the photons were stored in a microwave cavity, a "light trap" in which the light bounces back and forth as if between two mirrors. In earlier work, these researchers showed they could create and store photons, one at a time, with up to 15 photons stored at one time in the light trap. The research shows that they can create states in which the light trap simultaneously has different numbers of photons stored in it. For example, it can simultaneously have zero, three, and six photons at the same time. Measuring the quantum state by counting how many photons are stored forces the trap to "decide" how many there are; but prior to counting, the light trap exists in a quantum superposition, with all three outcomes possible. Explaining the paradoxical simultaneity of quantum states, Cleland said that it"s like having your cake and eating it - at the same time. "These superposition states are a fundamental concept in quantum mechanics, but this is the first time they have been controllably created with light," Cleland said. Martinis added, "This experiment can be thought of as a quantum digital-to-analog converter." As digital-to-analog converters are key components in classical communication devices (for example, producing the sound waveforms in cell phones), this experiment might enable more advanced communication protocols for the transmission of quantum information. First author Hofheinz designed and performed the measurements. He is a postdoctoral researcher from Germany who has been working at UCSB for the last two years on this project. The devices used to perform the experiment were made by Haohua Wang, a postdoctoral researcher from China, who is second author on the Nature publication. The scientists said their research is leading to the construction of a quantum computer, which will have applications in information encryption and in solving or simulating problems that are not amenable to solution using standard computers. Gail Gallessich University of California - Santa Barbara


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