Post by ADQA on Oct 21, 2023 0:53:34 GMT -5
To this end, sensors are introduced into the porous structure of the implant, which control the state of the body using internal or external interfaces. Anticipating the possible consequences, he gave the order that the drugs or medicinal substances needed to stabilize the situation were released from the implants. In particular, our research group is currently developing a multifunctional hybrid chip as part of a priority program. The application of additive technologies they allow you to obtain products of any shape, geometry and size based on computer models.
Additive technology is 3D or 3D printing. Layer by layer, the printer creates a moible number data three-dimensional object, a true copy of the computer model. In this case, various materials can be used, without exception titanium, traditionally used for the manufacture of bone implants, its alloys with aluminium, vanadium, niobium, zirconium, as well as polymers and composites. Innovative materials and technologies make it possible to produce implants directly for each patient, taking into account his anatomy, genetics, age and gender characteristics. There is also a clear trend towards shortening the time from idea to introduction of materials into medicine.
These are actively implemented technologies that will become common practice for the foreseeable future. Implantology and science in general have developed very rapidly in recent years. I think within the year we will be able to do almost artificial replacement of blood vessels, ureters and bile ducts. According to the characteristics of biocompatibility, they are indistinguishable from natural ones, argues.
Additive technology is 3D or 3D printing. Layer by layer, the printer creates a moible number data three-dimensional object, a true copy of the computer model. In this case, various materials can be used, without exception titanium, traditionally used for the manufacture of bone implants, its alloys with aluminium, vanadium, niobium, zirconium, as well as polymers and composites. Innovative materials and technologies make it possible to produce implants directly for each patient, taking into account his anatomy, genetics, age and gender characteristics. There is also a clear trend towards shortening the time from idea to introduction of materials into medicine.
These are actively implemented technologies that will become common practice for the foreseeable future. Implantology and science in general have developed very rapidly in recent years. I think within the year we will be able to do almost artificial replacement of blood vessels, ureters and bile ducts. According to the characteristics of biocompatibility, they are indistinguishable from natural ones, argues.