The production of effective, functional, and hygienic medical devices can be aided by the use and advancement of surface coatings that can alter physiochemical properties and functionality, among other features.
EOS Biomaterials Incorporated relies on Heraeus R&D equipment to develop coatings for the medical market. The company’s technology can be used for surgical implants and wound treatment.
With the help of camera-guided endoscopes, clinicians get a look inside the body’s cavities to diagnose and treat many different conditions. In the United States alone, up to 20 million endoscopies are performed on patients every year.
It is concluded that for coating applications in medical devices, microcratch and nanoscratch are useful and quantitative approaches for examining coating-to-substrate adhesions.
Whitford Corp., a manufacturer of fluoropolymer coatings for industrial and consumer industries, has established a new medical coatings group dedicated to supporting the use of its coatings on medical devices.
UC Berkeley scientists have taken proteins from nerve cells and used them to create a “smart” material that is extremely sensitive to its environment. This marriage of materials science and biology could give birth to a flexible, sensitive coating that is easy and cheap to manufacture in large quantities.
Wrapping wound dressings around fingers and toes can be tricky, but for burn victims, guarding them against infection is critical. Scientists are reporting the development of novel, ultrathin coatings called nanosheets that can cling to the body’s most difficult-to-protect contours and keep bacteria at bay.
Iranian biomaterials researchers from Isfahan University of Technology produced biocompatible materials based on metallic alloy to modify the properties of materials used in tissue engineering.