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Treatment That Significantly Slows Progression Of Eye Damage In Persons With Type 1 Diabetes - University Of Minnesota
University of Minnesota Medical School researcher Michael Mauer, M.D., has found a treatment that significantly slows the progression of eye injury in people with type 1 diabetes, a common complication caused by this disease. By administering an antihypertensive, medication commonly prescribed to treat high blood pressure, Mauer and colleagues were able to slow progression of diabetic eye damage in more than 65 percent of participants involved in the study.
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Hospital Pharmacists Launch Pioneering Healthy Lifestyle Scheme, UK
Inpatients at Southampton"s teaching hospitals are to be offered advice on lifestyle and weight management as part of a radical new project. Southampton University Hospitals NHS Trust"s pharmacy team has invented an innovative plan to tackle obesity during routine risk assessments for venous thromboembolism (VTE), better known as blood clots.
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Philips Expands Home Healthcare Commitment With Portable Life-support Ventilator
Royal Philips Electronics (NYSE: PHG, AEX: PHI) introduced the Trilogy100 portable at-home life-support ventilator. The highly versatile, lightweight (11 lb / 5 kg) device marks a milestone in home ventilation from a recognized leader in respiratory care. Respironics first introduced bi-level positive airway pressure for noninvasive ventilation nearly 20 years ago.
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Biological Warfare In Bacteria Offers Hope For New Antibiotics

Scientists are to study a group of proteins that are highly effective at killing bacteria and which could hold the key to developing new types of antibiotics. Researchers from the Universities of York and Leeds have been awarded ÷£3.3m from the Biotechnology and Biological Sciences Research Council (BBSRC) to find out how a family of proteins known as colicins force their way into bacterial cells before destroying them. The team, led by Professor Colin Kleanthous, from the University of York"s Department of Biology, will develop earlier research that suggests colicins use decoys to mimic key parts of the cells" own protein machinery to evade their defences. Professor Kleanthous said: "Colicins are the weapon used in the biological warfare that takes place between competing bacteria. Understanding how this group of proteins work could help scientists develop new drug delivery methods to target the bacteria that cause diseases in people." "It"s as though the colicins are carrying the equivalent of hand grenades which they can deploy without harming themselves," said Professor Sheena Radford of the University of Leeds" Faculty of Biological Sciences. The five year programme of research aims to discover how colicins specifically penetrate Gram-negative bacteria which are protected by two membrane barriers. It will involve collaboration between six groups of scientists from the Departments of Biology and Chemistry at the University of York and the Astbury Centre for Structural and Molecular Biology, Faculty of Biological Sciences, at the University of Leeds. York University


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