“Gum glossary” .. researchers develop “revolutionary technology” to restore broken bones

Researchers from South Korea and the United States have created a new device that looks like a “gompistol”, which can push leg pattern directly into fractions during surgery, in a move that can revolutionize orthopedics by providing custom transplants that can speed up healing and reduce the risk of infection. Bone cloth or metal reconstruction is usually used to determine the large defects caused by fractures or the removal of crop. Over the years, several ways to treat damaged bones have been tested, including the patch of egg shells and pressure electrical structures. In the new study, published in the Device Patrol, the researchers developed a modified apparatus of the Gompistol to print 3D for direct leg implants in the field of fraction or bonefect during surgery. Practical experiences and practical experiments performed on rabbits enabled the researchers to use the leg spot directly at the fraction place, which enabled broken bones to heal and grow naturally. The results of the experiments showed that during a 12 -week period after surgical operations to treat serious fractions in the dybene in the rabbits, no signs of infection on animals that underwent treatment in the new system, while showing a greater improvement in bone regeneration compared to another group of rabbits. While taking traditional metal implants or bones of donors, it requires before manufacturing and air conditioning operations to match the shape of the fraction, but the new Korean innovation allows a simpler and quick solution as it can be applied directly into the operating room. “Our proposed technology provides a unique approach through an immediate pressure system within the surgical terrain (sitting), enabling the manufacture and application of the supporting structure in real time, with high accuracy in accordance with the anatomical form, even in complex defects, without the necessary preparations, such as photography, modeling and pruning.” Therapeutic properties that help heal, with a vital compatible thermal material called “polycaproactone”, may be dissolved at temperatures of less than 60 ° C. pointed out that “the small size of the device and the dependence on the manual give the surgeon the flexibility to control the printing, its angle and depth during the process. can be, which is a great advantage in improving the time of procedures. ”With traditional bone spot, and helps reduce the development of antibiotic resistance, according to Li.