Tactical Medicine News

Researchers at Ecole Polytechnique Fédérale de Lausanne (EPFL) in Switzerland have developed a method to 3D print mineralized constructs with a little helping hand from bacteria. The technique consists of printing a polymer bioink that contains bacteria that will produce calci...

Scientists at the Wyss Institute for Biologically Inspired Engineering at Harvard have developed a mechanically active gel-elastomer-nitinol tissue adhesive, otherwise known as MAGENTA. The implantable device functions as a soft robot, and it can be adhered to the outside of a...

Scientists at the University of Birmingham in the UK have trialed Generative Design, a design approach that relies on machine learning and artificial intelligence, to create patient-specific knee implants. At present, knee implants are typically created in a limited range of s...

Enovis, a medtech company based in Delaware formerly known as DJO, recently announced the launch of ARVIS (Augmented Reality Visualization and Information System), an augmented reality technology that is designed to assist surgeons during implant placement in the hip and knee....

Engineers at MIT have created an ultrasound patch that can provide long-term ultrasound imaging of internal organs and structures. The device contains a rigid piezoelectric probe array and uses an underlying layer of elastomer-covered hydrogel in lieu of the gel applied to the...

Engineers at the University of Pittsburgh created a self-powered implant that can track spinal healing while also providing mechanical support. The device can be 3D printed so that it fits a given patient perfectly and the mechanical properties can also be easily tuned to cust...

Scientists at Penn State developed a method to print a ‘bone’ construct during a surgical procedure. The technique is intended to allow surgeons to rapidly fill bony defects that would not easily heal by themselves, and the researchers have turbo-charged the technique by inclu...

Researchers at the University of Illinois Chicago have developed a method to create 3D printed cell-loaded bioink constructs that can change shape over time, just like tissues in the body do. Incorporating crosslinking molecules into the printed hydrogels, some of which are UV...

Researchers at RMIT University in Australia built a microchip that can induce stem cells to differentiate into bone cells by stimulating them with high-frequency sound waves. The technique lets the researchers create bone cells using stem cells derived from adipose tissue, whi...

Intelligent Implants, a medtech company based in Cork, Ireland, has developed the SmartFuse TLIF cage, a spinal implant intended to enhance bone healing and reduce rates of non-union following spinal fusion surgery. The implant is equipped with electrodes that are designed to ...