The application of 3d printers in the medical industry makes it a natural fit potential with the medical field and has played a huge role in clinical use.
Making personalized medical device design what you want it to be
The damage to tissues and organs requires the use of auxiliary materials to repair, in order to maximize the low repair of the original function and appearance. Traditional auxiliary materials are generally processed using uniform specifications, and doctors can only carry out rough reprocessing based on their experience, which often fails to meet the requirements of patients. 3d printing provides more suitable auxiliary materials for each patient in a customized way.
Making the design of clinical medical programs more powerful
As in the example cited at the beginning of this article, doctors in clinical work often find it too difficult or even impossible to perform surgery due to the complexity of anatomical locations and the depth of anatomical locations. Nowadays it is possible to first use CT or NMR*** vibration to obtain anatomical image data of the desired surgical site. Using this data, 3d printers print out their simulation models, which doctors can use to customize their surgical plans and conduct pre-operative surgical simulations.
More realistic artificial organs
For some patients, congenital malformations of organs and external damage caused by accidents can be a lifelong wound that is difficult to heal. If they can't recover functionally, they want to at least look normal. 3d printing brings hope to such patients, with 3d printing technology to create a variety of external organs such as prosthetic limbs, so that the patient's defective organs "reborn".
Powering medical education
Today's medical anatomy education is controversial, with cultural and ethical issues surrounding the use of human cadavers for anatomy education. At the same time, prolonged exposure to formalin embalming creates health concerns for students and teaching staff. 3d printing avoids these problems altogether - the higher resolution achieved and the colors reproduced make these replicas just as pedagogical.
These are just a few examples of how 3d printers are being used in the medical industry. Overall, 3d printing is still only found in cutting-edge medical care, and the barriers to its use remain high, such as high costs and the need for technical expertise. Removing these barriers requires the cooperation of people in related fields, and we have reason to believe that 3d printing will certainly set off an industrial revolution!