The rapid prototype technology used for the medical industry is relatively new. This is why there are many new and exciting discoveries for applications of this RP technology. It is definitely revolutionizing the way medicine is practiced. These medical prototypes are helping medical practitioners to be of better service to patients without the long turn over or risks in experimentation.
Rapid medical prototyping technology is used for things such as prototypes for medical devices and models such as anatomical parts for medical applications. Basically, what Rapid prototype in the medical industry does is that it provides the innovative avenue for doctors and medical designers as well as patients, generate a physical representation of their design so that they can test its usability.
Of course because these rapid prototypes will be used for the medical industry, it is important to contract a prototyping solutions provider that is quick and reliable and who will only use FDA approved materials. You will also want a prototyping solutions provider who you can trust with confidential information.
What has to be the most exciting contribution of Rapid prototype in the medical industry is the fact that RP technology has gone beyond providing sample models so that doctors and patients can test the shape and feel of these products. Now, through rapid medical prototyping, models of human bone, tissue and other anatomical parts are available for use by surgeons to study strategies for complex surgery.
Having actual prototypes of anatomical parts help not only doctors to better understand and discuss strategies, but it also helps for doctors in explaining complex procedures to their patients with the use of these aids. While 3D computer images used to in the actual prototypes place, there is no doubt that Rapid prototype in the medical industry has given more depth to the practice.
Rapid prototype technology or RP refers to the automated construction of prototypes. Usually, the process involves, a computer aided design, which is fed into a machine, which is in turn transformed into a physical, 3D model through an automated mechanical process.
Although the term rapid is relative, the reason why the term is used in this process is because prior to this invention, prototypes were produced longer and with more difficulty. Not to mention that in the past, automated prototyping were limited to certain manufacturing industries. Now with Rapid prototype technology in place, a much wider application of the process is utilized, including the medical industry.