MIS-EMN (Minimally Invasive Surgery-Electromagnetic Navigation) achieves distortion-free position within the body and lumen tissues by integrating miniature magnetic sensors with flexible endoscopes and minimally invasive instruments. Currently, it has been integrated into multifunctional endoscopic image-guided ICH (Intracerebral Hemorrhage) surgery applications, enabling precise surgical dynamic navigation within the body through the fusion of biomedical imaging for distortion-free position.
MIRDC (Metal Industries Research and Development Centre) continues to assist in industrial upgrading and transformation in response to policy development and the trend of the times, with five major industries, including metal material & fabricated metal products industries, high value-added precision micro manufacturing, green energy, high value equipment and medical devices & healthcare, as the core development, proactively promotes technical innovation and high-value applications. The Centre has not only strengthened the link between domestic and foreign technology R&D and the integration of talent and resources, but also established a cross-discipline R&D ecosystem. MIRDC has become a globally recognized R&D institute focusing on value-added activities for metal related industries.
A deep learning-powered novel artificial intelligence algorithm and syste m to assist in the identification of pneumoperitoneum on abdominal com puted tomography
Degradable Implantable Flexible Microelectrode Patch with High-Resolution Electrical Stimulation, Electrophysiological Signal Sensing, and Cellular Regenerative Therapy
Intraoperative Brain Surgery Navigation System Based on Needle Type OCT Technology
Bioinspired Artificial Ligament Fabricated by Interfacial Polyelectrolyte Complexation Technique for Ligament Regeneration
Technology maturity:Prototype
Exhibiting purpose:Product promotion、Technology transactions
Trading preferences:Negotiate by self、Technical license/cooperation
Coming soon!