At the Apolonija Dental Polyclinic, we believe that every patient deserves the best – painless treatment, top precision and long-lasting results. This is our mission and promise to patients. That’s why we use the most advanced digital technology to ensure faster, safer and more accurate diagnostics and therapy.
AI-guided X-ray diagnostics
With the help of advanced diagnostic systems and artificial intelligence, we can detect various changes in the bone, early signs of inflammation, and emerging disorders.
Digital 2D and 3D X-rays are run through an artificial intelligence system, providing analysis that compares hundreds of thousands of similar cases from around the world. The result is an extremely fast and accurate diagnosis.
3D digital print
Dental scanning is now a regular procedure in our clinic because it allows for very high precision. The intraoral scanner uses a system of several high-resolution 3D cameras that capture teeth and surrounding tissues from different angles. These impressions are taken during orthodontic therapy, at various stages in the manufacture of bridges and crowns, for the creation of templates for computer-guided dental implantology, as an initial set of data in the analysis of the temporomandibular joint with the Modjaw digital articulator, in monitoring the condition of the teeth and mucous membranes, and are part of the medical documentation.
CAD/CAM and Cerec technology for ceramic crowns and advanced ceramic inlay/onlay fillings
The very high precision of the crown significantly reduces the risk of error, discomfort, ensures long-lasting results, better functionality, a natural feel and the best possible aesthetics. The procedures for making crowns and ceramic fillings using this technology are significantly shortened, so they can be made within a few hours.
The crown manufacturing process begins with a digital 3D impression that is transferred to software where a zirconia crown is designed with maximum precision, taking into account the patient’s aesthetic and functional requirements. After digital design, the data is sent directly to a robotic precision crown manufacturing system, which uses high-quality ceramic materials to shape the crown. The robotic crown molding process takes place with the highest level of precision.
Modjaw digital articulator
Modjaw enables dynamic jaw movement analysis. This means that the doctor can analyze the functional movements of the patient’s jaw in more detail, especially during chewing and speaking. Jaw movement analysis allows for precise diagnosis and more effective treatment of temporomandibular joint disorders.
Jaw dynamics scanning with Modjaw is also used in orthodontic therapy to optimize jaw function. Orthodontic therapy can be performed more precisely and better. We can make fully customized crowns and bridges based on the patient’s movements.
The Modjaw system is currently the most advanced technology in dentistry and we are very proud and privileged to use it in our daily practice.
Digital planning of dental prosthetics
Today, we design crowns, bridges or dentures using various software systems. Software allows the dentist to simulate the appearance and functionality of the final solution in advance, ensuring ideal aesthetics and a perfect fit in the patient’s bite. High precision in the manufacture of dental crowns ensures durability and protects the supporting teeth from caries. Artificial intelligence systems imitate the shape and appearance of future crowns according to the patient’s teeth. The process of making dental crowns becomes predictable and faster.
Digital planning of orthodontic therapy
After taking a digital impression, the orthodontist enters a precise model of your teeth into the software for digital orthodontic treatment planning. The orthodontist uses the software to move the teeth into an ideal bite, which is then achieved in the patient using orthodontic appliances.
We can then predict the duration of orthodontic therapy, tooth movements, and avoid possible complications. We can show the patient the future result of their therapy even before they start wearing braces.
3D printers
The 3D printer enables the creation of precise models of digital teeth impressions and the creation of perfectly precise orthodontic aligners. The process begins with a digital scan of your teeth and jaw, creating an accurate 3D model of your oral cavity. This digital model is used to plan and design aligners, splints or braces using special software. Once the design is complete, the 3D printer independently creates the patient’s models and temporary dental restorations.
Navident – computer-guided dental implantology
The Navident system uses dynamic navigation to guide the surgical implant placement procedure, similar to the GPS system in a car. First, the patient’s teeth and jaw are digitally scanned, and then the data is combined with CBCT images. This creates a three-dimensional view of the anatomy of the teeth and jaw. During the procedure, the Navident system guides the surgeon in real time, via a screen where the dentist can see the structures beneath the tissue during the surgical procedure.