Digital transformation of medical processes in orthopedic dentistry by using computer diagnostics and CAD/CAM technologies

UDC 614.2
Publication date: 30.11.2022
International Journal of Professional Science №10-2022

Digital transformation of medical processes in orthopedic dentistry by using computer diagnostics and CAD/CAM technologies

Ziryanov Mikhail Alekseevich
Epishov Vladislav Vyacheslavovich
Gladskikh Natalya Alexandrovna
Sich Galina Vladimirovna

1. Student of the Institute of Dentistry at VSMU. N.N. Burdenko
2. Student of the Institute of Dentistry at VSMU. N.N. Burdenko
3. Candidate of Technical Sciences, Assistant of the Healthcare Management Department
4. Candidate of Medical Sciences, Associate Professor of the Healthcare Management Department
Voronezh State Medical University named N.N. Burdenko
Review article
Abstract: Digital transformation of processes in healthcare is an important and urgent task today. The use of methods of radiation diagnostics (MSCT, MRI) in the planning of complex rehabilitation of patients is one of the examples of the digital transformation of processes in dental practice. Comprehensive planning of orthopedic treatment using CAD/CAM technologies is widely used in dentistry today. Models obtained by computer prototyping (stereolithography) are actively used to visualize the results.
Application of methods of radiation diagnostics (MSCT, MRI) in the planning of complex rehabilitation of patients. Comprehensive planning of orthopedic treatment using CAD / CAM technologies. Models obtained by computer prototyping (stereolithography).
Keywords: CAD / CAM technologies, orthopedic dentistry, radiation diagnostics (MSCT, MRI), digital transformation, medical processes.

Application of methods of radiation diagnostics (MSCT, MRI) in the planning of complex rehabilitation of patients.

Computed tomography is a method of non-destructive layer-by-layer study of the internal structure of an object. The method is based on measuring and complex computer processing of the difference in X-ray attenuation by tissues of different density. Currently, X-ray computed tomography is the main tomographic method for studying human tissues using X-rays.

MAGNETIC RESONANCE IMAGING (MRI) is a method of radiation diagnostics based on recording the energy emitted by the protons of the hydrogen nuclei of the human body when they return from an excited state to their original state.
MRI allows you to get an image of the layers of the human body in any plane — frontal, sagittal, axial, etc., which can then be reconstructed into three-dimensional images.
With magnetic resonance imaging (MRI), the patient is not exposed to ionizing radiation.

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