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New MADIT II Clinical Data Analysis Shows Long-Term Survival Benefit For Implantable Defibrillator Therapy
Boston Scientific Corporation (NYSE: BSX) announced that an analysis of long-term data from the MADIT II clinical study demonstrates that the life-saving benefits of implantable cardioverter defibrillator (ICD) therapy remain sustainable at eight years. This is the first time long-term data have been presented regarding the life-saving benefits of ICDs in a primary prevention population. The analysis was presented during a late-breaking session at the Heart Rhythm Society Scientific Sessions in Boston.
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Oncologic Drugs Advisory Committee Meeting Set By FDA
Medical Industry E-Mail News Service™ -- July 07 2009 -- The US Food & Drug Administration (FDA) has announced that its Oncologic Drugs Advisory Committee will meet on July 15 2009, in Gaithersburg MD, to discuss (1) new drug application (NDA) 022-447, proposed trade name Yondelis (trabectedin) powder, for concentrate for solution for intravenous infusion, Centocor Ortho Biotech Products, L.P., proposed indication in combination with Doxcil (doxorubicin HCl liposome injection), for treating patients with relapsed ovarian cancer; and (2) supplemental new drug application (sNDA) 050-718/S-039, Doxil (doxorubicin HCl liposome injection), for intravenous infusion, Centocor Ortho Biotech Products, L.P., proposed indication in combination with docetaxel for treating patients with locally advanced or metasatic breast cancer who have received prior anthracycline treatment. There is no charge to attend.
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Stem Cell And Neurobiology Expert Clive Svendsen, Ph.D. Joins Cedars-Sinai To Head New Regenerative Medicine Institute
Clive N. Svendsen, joint leader of the widely-respected Stem Cell and Regenerative Medicine Center at the University of Wisconsin, has been named director of the new Cedars-Sinai Regenerative Medicine Institute, effective Dec. 1, 2009.
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Important Symbol Of Pollution Is Broken Down By Microbes

Immobilized microbes can break down potentially harmful phthalates, according to researchers in China, writing in the International Journal of Environment and Pollution. The microbes might be used to treat industrial waste water and so prevent these materials from entering the environment. Phthalic Acid Esters (PAEs), commonly known as phthalates, are widely used as additives in polymer manufacture as plasticizers. They do not readily degrade in the environment and so have become widely distributed in natural water, wastewater, soils, and sediment. Concerns about their suspected ability to cause genetic mutations and cancer have led to their listing as priority pollutants by the US Environmental Protection Agency, the European Union, the China National Environmental Monitoring Centre, and other regulatory authorities. Weizhong Wu of the College of Environmental Sciences and Engineering, at Peking University, in Beijing, and Xianlin Meng of Harbin Institute of Technology, in Nangang District, have identified and isolated a microbe that can digest one of the most common PAEs, d-n-butyl phthalate. This compound is widely used and is one of the most frequently found in diverse environmental samples including groundwater, river water, drinking water, open ocean water, soil humates, lake sediments and marine sediments, the researchers say. They have now used acclimation and enrichment techniques to ferment adequate quantities of the active microbe, which was obtained from the activated sludge from a wastewater treatment plant. It was enriched and acclimated by incubating activated sludge. This involves cultivating the microbes in a solution containing phthalate as the only of carbon for the microbes. Successive divisions of microbial cells quickly leads to the evolution of a strain that can quickly metabolize the phthalate and convert it into the raw materials for microbial growth and reproduction. The researchers then tested this phthalate-digesting microbe by immobilizing cells on a new type of ceramic honeycomb support. They then measured the before and after concentration of phthalate in a simulated wastewater sample. Initial concentration was 100 milligrams per liter which fell to less than 1.0 milligram per liter within two days of treatment with the microbial honeycomb. The team points out that the rate of degradation was two and a half times faster with immobilized microbes than with microbes floating free in the sample. "Biodegradation of plasticiser di-n-butyl phthalate by immobilised microbial cells" in Int. J. Environment and Pollution, 2009, 38, 203-211 Weizhong Wu Inderscience Publishers


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