Our Technologies
Digital Intraoral Scanner
for Creating a Digital 3D Model
The intraoral scanner is an innovative device used for dental impression taking. It eliminates the discomfort associated with traditional modeling paste and ensures numerical precision of the impression. The intraoral scanner is a 3D scanner that is inserted into the oral cavity, collecting information about the shape and structure of the dental arches through a beam of light. The data collected is processed for the subsequent phases of problem analysis, intervention design, and
potential production of devices in a fully digital workflow.
Intraoperative Microscope
A Dental Magnification Technique
This instrument provides a detailed and magnified view of the operating field, allowing the team to deliver more precise and personalized care. Through the use of the microscope, early dental problems can be identified, minimally invasive procedures can be performed, and superior aesthetic and functional results can be ensured.
The use of the intraoperative microscope not only enhances the precision and effectiveness of treatments but also creates a safer and more comfortable working environment for patients.
Airflow Profilaxis Master
(Protocol GBT-EMS)
Prophylaxis Master is the latest EMS innovation for the “Guided Biofilm Therapy”: a unique solution for caries, perio prevention and maintenance. Created for intensive professional use, the device is characterized by unique ergonomics, high precision, easy maintenance and compliance with the highest hygiene standards. AIRFLOW PLUS powder comfortably and efficiently removes biofilm, stains and young calculus supra and sub-gingivally reducing the need for hand and power instrumentation.
Piezoelectric Scalpel
The piezoelectric scalpel (Piezosurgery) is a device that utilizes modulated ultrasonic vibrations at various frequencies, enabling it to cut hard tissues such as bone and dental tissue. This instrument is effective in all scenarios that were previously managed by rotating instruments, surpassing their invasiveness and limitations in precision, cutting, and safety.