The field of orthopedics has been transformed by 3D printing technology. This technique is highly beneficial in terms of lowering expenses, increasing precision, and reducing operating and post-surgical concerns.
Fremont, CA: Even though 3D printing exists since the 1980s, it has only lately gained popularity in the medical industry. 3D printing is based on a method of creating objects by layering material rather than subtracting it from the raw material, as is the case with traditional methods. This technology can be applied in numerous areas in orthopedics, not only the most common: preoperative planning.
As previously stated, 3D printing technology is frequently employed in preoperative planning to create bone models for use in complex orthopedic patients. In a difficult joint replacement, for example, the surgeon can create a 3D model, identify potential hurdles, and plan appropriately. Even in trauma instances, the use of 3D printed duplicates of bone fractures allows surgeons and researchers to test approaches before undergoing surgery.
Even minor changes in implant design take a long time to implement using traditional production methods. The designer may now easily tweak and construct a new implant using 3D printing technology. This procedure is more faster and less expensive than previous implant design procedures. The 3D printing technology has been applied in a variety of medical fields, but the field of orthopedics has been transformed the most. It has far-reaching effects for surgical research, development, and improvement.
Another application of 3D printing in the orthopedics discipline is the creation of models for training purposes. 3D printed models are beneficial for patient education because they allow patients to comprehend their problem and the steps being taken to correct it.
Surgical guides can also be made via 3D printing. These guides can be used to make precise bone slices during surgery. This procedure cuts down on surgery time and has far-reaching ramifications for the patient, surgeon, and hospital. The length of the procedure, as well as its efficiency, can be reduced while still providing superior patient results. Using precise 3D printed guidance templates that fit directly onto the bone, cases like complicated abnormalities can be dealt with more efficiently.