Electric field (EF) therapies are a promising novel technology for wound healing and have been proven to speed up recovery.

Medical implants and biomedical devices often cause inflammatory responses due to poor biocompatibility. Apatite coatings offer a potential solution but limited cell adhesion is often a challenge. To ...

New research from SUNY Polytechnic Institute introduces an innovative, eco-friendly method to enhance the performance and longevity of titanium-based dental implants, focusing on improving the ...

An international research team led by Prof. Dr. Eva Blasco, a scientist at the Institute for Molecular Systems Engineering and Advanced Materials (IMSEAM) at Heidelberg University, has successfully ...

A research team in Japan reported that they succeeded in producing the spider silk -- ultra-lightweight, though, biodegradable and biocompatible material -- using photosynthetic bacteria. This study ...

SPhTI (Siberian Institute of Physics and Technology) TSU materials scientists have developed a new method of obtaining a biocompatible porous alloy based on titanium nickelide to create implants. Due ...

Soft and flexible sensors are transforming sensing technologies by addressing the limitations of rigid, traditional systems. Designed to mimic the ...

The history of synthetic glass-ceramic materials goes back to 1953. Initially, metals were the materials that were being researched for utilization as dental replacements and orthopedic implants.

Medical adhesives are materials that can be applied to various uses such as wound healing, hemostasis, vascular anastomosis, and tissue engineering, and they are expected to contribute greatly to the ...

Objet has introduced MED610, a 3D printing material that combines biocompatibility with dimensional stability and clear transparency. This makes it useful for poly ...