The intrigue “Reshaping The Body” in the animated film “Nezha 2” is really possible in reality.
The story of the real person of Taiyi using Lotus Root to reshape the body of Nezha was again discussed with the popularity of “Nezha 2”. In Wuhan, after ten years of research, the scientific research team has managed to extract Lotus root fibers and to use 3D printing to prepare personalized bone repair materials, which can promote the proliferation of bone cells, accelerate the regeneration of bone tissue, put the myth in reality and bring new pierced to the field of bone repair.
Recently, according to the Yangtze River Cloud News, the University of the University of Wuhan Light Technology has successfully developed new organic equipment based on Lotus root fibers after ten years of meticulous research and used 3D printing technology to apply it to the repair and regeneration of bones. This revolutionary research has really transformed the “root lotus using to reshape the body” from a myth to a reality.
Lotus root fiber: natural bone repair material
According to Jiang Xueyu, PHD, Phd, School of Food Science and Engineering, Wuhan University of Light Technology, Lotus Root, as a common -man, is actually rich in many fibers. The research team has extracted active ingredients from the root fibers of lotus and combined with 3D printing technology to personalize the personalized bone stents according to the specific conditions of the bone default area. The scaffolding is capable of repairing broken bones in the body and providing growth advice for cells, allowing a new bone tissue to grow quickly along the structure of lotus fibers, thus accelerating the reconstruction of bone tissue.
Compared to traditional methods of steel nails treatment, bone bone fiber fiber stents printed in 3D have the following significant advantages:
- Best biocompatibility: Avoid bad adaptability and rejection reactions that can be caused by traditional metal implants.
- Reduce surgical trauma: Personalized personalized stents reduce the area exposed to surgery and reduce patient pain.
- No secondary surgery required: The deterioration rate of the lotus fiber stent in the body corresponds to the growth rate of the new bone.
Currently, technology has entered the animal test stage, and research results are exciting: fractured animals established with lotus root fiber stents areBone healing successfully within 8 weeksThe success rate exceeds 95%, and the strength of the new bone is comparable to that of natural bones. This result more verifies the feasibility and efficiency of the lotus root fiber in the field of bone repair.
If technology can be successfully promoted toClinical applicationwill provide fractured patients withLess costs, more effective, less painThe treatment plan reduces the need for secondary surgery while reducing the medical burden. During the interview, Dr. Jiang smiled and said: “Nezha has become popular recently, and we realized that our technology also uses Lotus Root to help bone growth, which can also be considered as using the lotus root to” reshape the body “.
In fact, 3D printing can not only be used for bone repair, but also great potential in the field of organ regeneration. In recent years, with the development of biopriting technology, scientists have passed blood vessels, skin, cartilage and other tissues, and even explore the manufacture of functional organs.
Recently, Dai Guohao, professor of bio-engineering at the Northeastern University, and his team has successfully developed a new modelElastic hydrogel materialDesigned for 3D -printed soft tissues, has an excellent biocompatibility and high elasticity, and can simulate the mechanical properties of human soft tissue. This breakthrough should promote the realization of 3D printed blood vessels, muscles and complex organs, providing more efficient and personalized medical solutions to patients around the world.
