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318 Articles On The H1N1 Swine Flu Virus Available Online Free Of Charge On SpringerLink
Springer Science+Business Media is offering all journal articles which deal with the H1N1 virus, or swine flu, free of charge on its online information platform http://www.springerlink.com. The articles can be found by using the search term "H1N1." A total of 318 scientific articles will be available to print out or download from now until 31 December 2009.

Micrus Endovascular Announces Positive DeltaPaq Microcoil Study Results
Micrus Endovascular Corporation (NASDAQ:MEND) announced that study results presented recently at the 10th Congress of the World Federation of Interventional and Therapeutic Neuroradiology (WFITN) demonstrated that the DeltaPaq™ microcoil"s proprietary design appears to improve the uniformity of coil distribution within a cerebral aneurysm and the degree of microcoil packing in the aneurysm dome and neck, which may reduce the risk of aneurysm recurrence. Bernard R. Bendok, M.D., Assistant Professor of Neurological Surgery and Radiology, Department of Neurological Surgery of Northwestern University Feinberg School of Medicine, and Matthew Gounis, Ph.D., Director of the New England Center for Stroke Research at the University of Massachusetts, served as principal investigators for the Micrus-sponsored in vitro study.
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Intubation For Emergency Airway Control In Critically Ill Patients Is Safer With Ketamine As A Sedative
An article published Online First and in a future edition of The Lancet reports on the use of Ketamine as a safe and valuable substitute to conventional etomidate. It is used as a sedative during intubation. Critically ill patients frequently require tubing inserted into their airways to help control their breathing during treatment. The article is the work of Professor Frederic Adnet, SAMU 93, of the Hç´pitaux de Paris, France, and his team.
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Enzyme Important In Aging Identified By Scientists At Children's Hospital Of Pittsburgh Of UPMC

The secret to longevity may lie in an enzyme with the ability to promote a robust immune system into old age by maintaining the function of the thymus throughout life, according to researchers studying an "anti-aging" mouse model that lives longer than a typical mouse. The study, led by Abbe de Vallejo, Ph.D., associate professor of pediatrics and immunology, University of Pittsburgh School of Medicine, and immunologist at Children"s Hospital of Pittsburgh of UPMC, reports that the novel mouse model has a thymus that remains intact throughout its life. In all mammals, the thymus - the organ that produces T cells to fight disease and infection - degenerates with age. Results of the study are published in this week"s issue of the Proceedings of the National Academy of Sciences. "These findings give us hope that we may one day have the ability to restore the function of the thymus in old age, or perhaps by intervening at an early age, we may be able to delay or even prevent the degeneration of the thymus in order to maintain our immune defenses throughout life," said Dr. de Vallejo. The mouse model that Dr. de Vallejo"s team studied was developed by his colleague Cheryl Conover, Ph.D., an endocrinology researcher at Mayo Clinic. In this "knockout" mouse model, researchers deleted an enzyme known as pregnancy-associated plasma protein A (PAPPA). PAPPA-knockout mice live at least 30 percent longer and have significantly lower occurrence of spontaneous tumors than typical mice. PAPPA controls the availability in tissues of a hormone known as insulin-like growth factor (IGF) that is a promoter of cell division. Hence, IGF is required for normal embryonic and postnatal growth. But IGF also is associated with tumor growth, inflammation and cardiovascular disease in adults. By deleting PAPPA, the researchers were able to control the availability of IGF in tissues and dampen its many ill effects. In the thymus, deletion of PAPPA maintained just enough IGF to sustain production of T cells without consuming precursor cells, thereby preventing the degeneration of the thymus. "Controlling the availability of IGF in the thymus by targeted manipulation of PAPPA could be a way to maintain immune protection throughout life," Dr. de Vallejo said. "This study has profound implications for the future study of healthy aging and longevity." Marc Lukasiak University of Pittsburgh Schools of the Health Sciences


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