DSM, which created and manufactures Dyneema Purity®, the world’s strongest Medical grade fiber, today announced the availability of Dyneema Purity® BLUE, the first 100% colored implantable grade Ultra High Molecular...
Lantheus Medical Imaging, Inc., a worldwide leader in diagnostic imaging, today announced that it has received additional supply of molybdenum-99 (Mo-99) to produce vital medical isotopes for its TechneLite® (Technetium Tc99m Generator) generators as the result of a recent agreement between the Institute for Radioelements (IRE), Fleurus, Belgium, and the Nuclear Research Institute (NRI), Rez, Czech Republic.
DuPont (NYSE: DD) is the only company cutting across both renewable materials and fuels with clearly advantaged biotechnology abilities, providing the market-driven science company with step-change growth opportunities, ...
Cimatron Limited (Nasdaq: CIMT), a leading provider of integrated CAD/CAM solutions for mold, tool and die makers as well as manufacturers of discrete parts, announced the successful completion of a Medical Micro Milling...
Titanium and its alloys have a leg up on all other materials used to make the orthopedic implants used by surgeons to repair damaged bones and joints. They are light, super-strong, and virtually inert inside the body. But whether the implants are destined for your knee, your hip, your spine or your jaw, the silvery metal has one big drawback.
A scientific first can be claimed by Kansas State University's David Wetzel, professor of grain science and industry, and Yong-Cheng Shi, associate professor in grain science and industry, and their colleague John R...
A new Baylor University study looking at the different fracture properties of bones at various stages of degradation has found that bones degrade and fracture differently under certain environmental conditions like sun, ...
Researchers at the NMI (Natural and Medical Sciences Institute) of the University of Tübingen in Germany are using the Viscotek TDAmax GPC/SEC triple detection system with Omnisec software, both from Malvern Panalytical, in their analysis of biomaterials.
Engineered artificial proteins that mimic the elastic properties of muscles in living organisms are the subject of an article in Nature magazine to be released May 6. “Our goal is to use these biomaterials in tissue engineering as a type of scaffold for muscle regeneration,” said co-author Dan Dudek, an assistant professor of engineering science and mechanics at Virginia Tech.
Mimicking the human nervous system for bionic applications could become a reality with the help of a method developed at Oak Ridge National Laboratory to process carbon nanotubes.
While these nanostructures have elec...
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