At present, the most common clinical treatment methods for bone tumors include surgery, radiation therapy and chemotherapy. Traditional radiotherapy and chemotherapy have major side effects. Surgical treatment is the fundamental treatment for musculoskeletal disorders, but this will leave bone tumor cells and cause large bone defects. The treatment often relies on various orthopedic implants. Into the object. The biocompatibility of orthopedic implants is a key factor in the successful recovery of patients after surgery, from PEEK to titanium, to silicon nitride, OXPEKK, and calcium phosphate, in order to reduce the risk of surgery and accelerate recovery. Speed, 3D printing technology has made more and more breakthroughs in the development of orthopedic implants, and now, with new breakthroughs... The repair of tissue defects by 3D printed individualized implants can greatly improve the accuracy and safety of surgery. 3D ceramic printing equipment manufactured by Lithoz Austria can print bone implants that meet this medical need. Based on additive manufacturing ideas, Lithoz has developed a unique and excellent method of producing structural ceramics. LCM technology (ceramic 3D printing based on lithography) enables the rapid and economical production of high-performance ceramic functional parts with material properties no lower than those produced in large quantities using conventional models. Lithoz's LCM technology 3D ceramic printing equipment can produce a variety of ceramic products with pore size and multi-hole structure. For example, a bioceramic support tricalcium phosphate sample can be prepared as a bone implant, which still has good biocompatibility. Sex, its various properties meet the same components manufactured by traditional processes. Image: High-simulation bone structure of Lithoz high-precision ceramic 3D printing In Europe, Lithoz collaborated with the Zurich Medical University to print a degradable TCP scaffold for the treatment of bone tumors and to perform implant experiments. The stent in the animal was wrapped by connective tissue 10 days after implantation, and no inflammation occurred. Patients with bone defects will see hope for recovery. High precision (minimum feature size: < 150 μm), high purity (> 99, 4% TD), high strength, high aging and high cost performance through high-precision ceramic 3D printing equipment; no tool cost, no modification Cost, to achieve the purpose of rapid production. This not only successfully solves the problem that the hole size and the pore structure of the traditional 3D printed bioceramic stent are not controllable, and can accurately calculate the sintering size to be enlarged by the equipment software, and ensure that the sample is sintered and shrunk to meet the requirements. The size of the original design. LCM technology has no shape limitations for ceramic prints, enabling new shape designs and product functional cell structure, as well as thin wall structures (less than 150 microns). Shoulder Length PVC Coated Gloves Shoulder Length Pvc Coated Gloves,Chemical Resistant Glove,Chemical Long Pvc Gloves,Anti Oil Pvc Long Gloves JINAN SHANDE SECURITY TECHNOLOGY CO., LTD , https://www.sdsxlb.com
