myortho select

The result can be simulated: As the whole process is programmed by a computer system, it is possible to visualize the final result even before starting the treatment.

The Importance of DIgital Orthodontics

In the future, artificial intelligence and medical practice will go hand-in-hand. This observation is the subject of a broad consensus, as evidenced, for example, by the billions of dollars invested by digital giants in their health subsidiaries. The accuracy of a radiological diagnosis performed by software based on deep learning is quantitatively superior to that of the best experts in radiology.

Does digital dentistry depend on algorithms?

According to experts, the never-ending improvement of robotic skills makes many people think that doctors will take the role of nurses in the near future. This is because of technology moving forward in a way that will cause companies to cut down on manpower. Orthodontics is in the eye of the hurricane: it is currently seeing technology overwhelm the need for practitioners.


The added value of a clinician

After years of studies performed, some experts feel that each dental clinician has an added value that no technology can surpass. At odds with the myths of technological individuality, some are convinced that the association between medicine and artificial intelligence focuses on complementarity and mobilizing strategies of numerically increasing medical activities. However, while ensuring "cost savings," this move towards automation limits thinking within a framework defined by the limits of work as it is accomplished.

On the other hand, the increase means that dentists start learning what humans are doing today to understand how their work could be perfected, and not diminished, by a greater use of AI. To illustrate the possible implications of each of these two strategies in the field of dentofacial orthopedics, consider the following example. A 3D impression of the jaws with an intraoral scanner is overshadowed by an algorithm which, from its geometric model, will position the dental arches in an ideal position according to the dental anatomy of the patient.

From this numerical result, the patient’s orthodontic device is designed, one that is perfectly adapted to the patient. Its technical implementation requires only limited clinical competence. In this therapeutic scheme, the added value of the orthodontist, both technical and intellectual, is reduced, at first sight, to a minimal role.

The need is there

By digging into different medical specialties, people come to similar conclusions. Any algorithms used will be able to decrypt and analyze data received by each scan: that's how the process is superior to a human’s brain. But when it comes to placing this technology in the overall context of the individual so as to create a "common currency" between different parameters, digital scans are useless: it is not possible for the technology to create knowledge to model clinical “common sense.” This is where the added value of a clinician lies. For more information, visit today.