What’s There to Look Out for in the Digitalisation of Orthodontics


Dentist vs. orthodontist

As many know, dentists play a definite role in maintaining patient’s oral health. (But the buck does not stop there, however, as the patients also play a part in that).

Dentists check cavities or perform fillings; inspect the jaw, mouth, teeth, and nerves for early signs of more serious conditions; and prescribe medication or procedures to alleviate pain or improve their patients’ overall condition, among other responsibilities.

But dentists can only do so much when the damage and the effects of the damage fall under the physiology and structure of the patient’s teeth and jawbones. This is where orthodontists come in.

This doesn’t mean that a dentist and an orthodontist can’t be the same person.

Orthodontists can still check a patient’s teeth, gums, and the overall mouth condition and both definitely benefit from the same dental chair technology, in terms of ergonomics, providing patient comfort and care, etc.

Orthodontists, simply speaking, do require additional training on this dental specialty, similar to how a physician obtains additional training to be an anesthetist or urologist, for example.

That said, orthodontists are specialist dentists who are mainly concerned with and provide services relating to the patient’s teeth and jaw shape and placement.

But do dentists and orthodontists share the same technology to provide care for their patients? The definite answer is, it all depends on a patient’s condition.

Continued improvement of orthodontic technology

Orthodontics technology has undoubtedly made some fantastic progress in helping orthodontists do their job well.

From the customary and exceptionally mechanical advancements of the most recent decades to the 3-D printer, orthodontics technology is making strides like numerous well-being-related fields.

Presently, the area has wandered into information investigation and digital examination to modern types of orthodontic apparatus and types of administration.

From only straightforward patterns, these advancements have become the standard of the business.

With newer technology, these pieces of apparatus and practices have consequently improved and made the lives of orthodontists and patients easier, in terms of getting the right treatments.

While there are many orthodontic advancements available to professionals, especially with digital orthodontic scanning, no such other technology has indeed left a lasting effect on dental professionals than the modern orthodontics technology we have now.

Digital models have not only improved patient assessment; they have likewise made analysis simpler. In this post, let’s take a look at the foremost pieces of orthodontist apparatus used today.

Cone-beam computed tomography (CBCT)

One major improvement in dental imaging over the past decades is the cone-beam computed tomography.

In all cases, the images produced by CBCT show clearer 3D pictures of the patient’s jaw and whole skull, which also show an exact image of the patient’s current condition and greatly improves the orthodontist’s ability to diagnose, evaluate, treat, and care for their patients.

Having the option to control such pictures to see all angles imaginable is what helps orthodontists manage and arrange an assessment of the patient’s case.

CBCT has been known to be useful in assessing a patient’s condition, for example, in affected teeth, joint issues, skeletal structure, and air passage issues.

Since CBCT can render pictures in 3D, a volumetric investigation of the bone structure is now possible, compared to similar technology in the past.

Intraoral scanning

Fairly new, intraoral scanning is a colossal development in digital orthodontics technology.

Intraoral scanners can create results on par with those established through alginate connections.

These scanners, for the most part, utilize triangulation, accordion periphery interferometry, and 3D moving video catching, among others, when creating models.

There are various advantages of intraoral scanners. An orthodontist can do fewer impression retakes compared to similar technology in the past.

Additionally, it is simpler to get digital models whenever utilized through intraoral scanning systems.

Practitioners even note that these scanners empower them to cut the time spent between their arrangements, from the creation of the digital models to the manufacture of the corrective apparatus the patient needs.


This is another new mode of taking images utilized in recent digital orthodontics technology.

Similar with the previous two modes, stereolithographic (STL) records can be used to print 3D models to get even clearer pictures of the patient’s current condition.

Other than stereolithography, other related techniques utilized are melded statement modeling, PolyJet photopolymerization, and digital light preparation. Orthodontic labs have now the choice to print models at a lower cost.

In any case, with the recent developments in 3D printing and ways to take accurate pictures of the patient’s condition, modern orthodontics technology has now provided for much cheaper ways for dentists and orthodontists alike to create accurate 3D models of the patient’s bone structure.

The latest in orthodontics and dental chair technology contribute to the practitioners accurately diagnosing and thereby providing the correct treatment the patient needs—without sacrificing comfort for their patients.

In that capacity, dental checkups have now become more affordable and made more accessible to patients in need.


Please enter your comment!
Please enter your name here