RU2673961C1 - Method for direct dental prosthetics - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to dentistry, and is intended for use in the direct replacement of the rows of teeth after extraction of teeth and for programming the formation of the jaw bones for subsequent dental implantation. Optical prints of the rows of teeth and jaws of patients are obtained before the teeth are removed. Said prints are transformed into digital models with capturing the position of the central occlusion or the centric relation of the jaws of the patient. Said digital model is combined with the image of a computer tomogram of the patient. Necessary teeth are removed from the digital jaw model. Then, the reduction of the digital model of the jaw bones is performed in the places of future atrophy identified on the tomogram, and also additional space is created in the place of future bone augmentation. After that, the base of the removable denture with the placement of artificial teeth in the virtual articulator is modeled on the borders of the tissues of the prosthetic bed in compliance with the anthropometric features of the patient. Using the method of additive production, a direct polymer denture is made. Deep dying of the obtained denture is performed. Teeth are removed, augmentation of the hole or osteosynthesis is carried out, and then the denture is fit and attached.

EFFECT: method makes it possible to manufacture, using the method of additive production, a direct denture with the retained parameters of the patient's interalveolar height and the function of directional bone tissue regeneration for further dental implantation.

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Description

The invention relates to medicine, namely to dentistry, and can be used both in orthopedic dentistry for the direct replacement of dentitions after tooth extraction, and for programming the formation of the jaw bones for subsequent dental implantation.

In 1965, Seeling described a direct prosthetics technique that allows you to reproduce the position, size, and shape of the extracted teeth on the prosthesis. The essence of the methodology is as follows: first, an impression and models are obtained, central occlusion is determined and gypsum plated into the occluder. Then, the gypsum analogues of the teeth to be removed are carefully cut to avoid damage. Clasps and a wax base are made for a partial removable denture. Cut gypsum teeth are fixed in the wax base in their previous position, being guided by the position of the antagonists. The model is gypsum-plated in the cuvette in the reverse way, and the gypsum teeth are removed after wax melting. The cuvette form obtained from them is filled with plastic of the corresponding color, and the basis is formed by some plastic from the base discharge. ("Orthopedic dentistry. Textbook." Lebedenko I.Yu., Bragin E.A., Kalivrajiyan E.S. GEOTAR-Media, M .: 2016, p. 401).

A method is known from the prior art for manufacturing a template for the surgical formation of an orthopedic bed under an implant prosthesis, which consists in obtaining a jaw cast, casting a gypsum model, applying guidelines for the volume of tissue removed, cutting teeth on the model and forming the alveolar process, and receiving an impression from the model and make a duplicate model of gypsum, make a thin template of colorless plastic and polish it on both sides to achieve transparency for applying the template on the jaw and correcting the volume of ud trolled tissues. The technical result of the invention is to improve the accuracy of the surgical formation of the prosthetic bed under the implant prosthesis (RF Patent 2255706 from 07/10/2005).

However, this method of preparing the tissues of the prosthetic bed excludes the possibility of direct prosthetics after tooth extraction.

Today, the modern trend in dentistry is digital dentistry. Computer simulation allows you to calculate the behavior of dentoalveolar segments depending on the individual characteristics of the state of the oral cavity. The displacements, rotation and tilt angles of the teeth are calculated depending on the shear modulus of the bone tissue, the coordinates and projections of the applied forces, and the masticatory pressure of various parts of the prosthesis. This allows you to create a unique, most suitable for the patient, configuration of a partial or complete removable denture. Through the use of computer models, the dentists' work efficiency is increased, and patients with adentia have the opportunity to improve the quality of life (Naumovich S.S. Cad / cam systems in dentistry: current status and development prospects / S.S. Naumovich, A.N. Razorenov / / Modern dentistry. - 2016. - No. 4 (65). - S. 2-9).

A known method of manufacturing a disconnecting postoperative denture for the upper jaw consists in obtaining an optical impression of the patient’s oral cavity and converting it into a digital format using the CAD / CAM computer module, modeling the boundaries of the intended surgical field on the image with virtual engraving of these boundaries in the vertical and horizontal directions width and depth of 2.5 mm, further modeling of the basis of the uncoupling postoperative denture with by retention elements and attaching images of the patient’s scanned dentition by image matching, milling the simulated prosthesis design from a plastic disc (RF Patent No. 2532366 of 11/10/2014).

A known method of manufacturing a prosthetic implant CAD / CAM (digital) technology, which consists in scanning the patient’s dentition, removing teeth on a virtual model, setting virtual teeth, digital printing of the prototype, duplication of the prototype and the manufacture of an acrylic prosthesis by polymerization. All stages in this technology are digital, including the initial receipt of a digital model. The only thing that is done by the “analog” method is the replacement of the printed prosthesis with a conventional prosthesis by liquid molding (free casting). For this purpose, instead of silicone, a hydrocolloid backup mass is used (to minimize costs). In addition, it is possible to color the prosthesis made using the 3D printing method with a special ink, instead of replacing it with a prosthesis obtained by the standard method (liquid molding), or, in the future, immediately produce 3D color printing. (https://www.dr.arut.ru/izgotovlenie-immediat-proteza-cad-cam-tsifrovoy-tehnologiey/).

This method is selected for the prototype, as the closest to the proposed.

The objective of the invention is the direct prosthetics of the patient with complete extraction of teeth with the reproduction of its anthropometric characteristics and the possibility of the formation of the jaw bones adequate subsequent dental implantation.

The technical result of the invention is the manufacture, by the method of additive production, of a direct removable prosthesis with the saved parameters of the interalveolar height of the patient and a function aimed at regenerating bone tissue for further dental implantation.

The technical result is due to the fact that the method of direct prosthetics consists in obtaining optical impressions of the dentition and jaw of patients before tooth extraction using an intraoral scanner, converting the impressions into digital models with fixing the position of the central occlusion or central ratio of the jaw of the patient, combining the digital model with image of a computer tomogram of the patient, removal of planned teeth from the digital model of the jaw and reduction of the digital model of the jaw bones in the places of future atrophy revealed on the tomogram, as well as the reconstruction of additional space in the place of future bone augmentation, after which, modeling along the borders of the tissues of the prosthetic bed of the base of the removable denture with the staging of artificial teeth in a virtual articulator with observance of the patient's anthropometric features, making a direct dental a prosthesis from a polymer by the method of additive production, deep staining of the resulting prosthesis, tooth extraction, hole augmentation or Adding osteosynthesis fit is and fixation of the prosthesis.

Obtaining optical impressions of the dentitions and jaws of patients before tooth extraction using an intraoral scanner has the advantage over obtaining physical impressions in terms of accuracy, financial and labor costs of both the patient and the doctor. Fixing the anthropometric characteristics of the patient before surgery in the virtual articulator of the CAD system, allows to shorten the period of adaptation to prostheses and prevent dysfunctional disorders of the chewing-speech complex. In some cases, on direct prostheses, teeth can be made that completely repeat the shape and position of the patient’s natural teeth.

The need to repeat the position, size and shape of the teeth to be removed is dictated by the patient’s profession, the absence of the corresponding size, shape and color in the tooth sets, an unfavorable ratio of the alveolar processes of the upper and lower jaws. The repetition of the position, size and shape of the anterior group of teeth of the lower jaw may be due to the fact that when talking and smiling, they are more visible due to high clinical crowns or due to the presence of diastems and three. It is not always possible to select these patients' teeth from existing ready-made sets.

The proposed reduction or increase in the width or length of the virtual model of the jaw bones allows precision with a micron accuracy to make a prosthesis using it, which in the postoperative period would not only hold a clot or bone graft, but also apply pressure in the places indicated by the reduction, program the height and the shape of the alveoli along a given path, optimal for subsequent dental intraosseous implantation. The indicated programming would not have been possible without a qualitative analysis of the clinical conditions in the preoperative period, which cannot be achieved without merging the digital image of the jaw model (STL file) and the digital image of a computer tomogram (DICOM file).

The method of direct prosthetics is as follows:

1. Obtaining in the preoperative period optical impressions of the dentition and jaw of patients using an intraoral scanner.

2. Carrying out computer cone beam tomography.

3. Converting optical prints into digital models with fixing the position of the central occlusion or the central ratio of the jaws of the patient, into a virtual articulator.

4. The combination of a digital model with the image of a computer tomogram of the patient.

5. Removal of planned teeth from a digital model of the jaw.

6. Reduction of the digital model of the jaw bones at the sites of future atrophy and / or recreation of additional space at the site of future bone augmentation.

7. Modeling the basis of a removable denture along the borders of the tissues of the prosthetic bed.

8. Virtual staging of artificial teeth in a virtual articulator in compliance with the anthropometric characteristics of the patient.

9. The manufacture of a direct denture from a polymer using the additive manufacturing method.

10. Individualization of the obtained prosthesis by deep staining.

11. Tooth extraction under anesthesia adequate to the intervention.

12. Osteosynthesis of the jaw and / or augmentation of the holes with an auto- or xenograft.

13. Fitment and fixation of the prosthesis.

Claims (1)

A method of direct prosthetics consisting in obtaining optical impressions of the dentition and jaw of patients before tooth extraction using an intraoral scanner, converting the impressions into digital models with fixing the position of the central occlusion or central ratio of the jaw of the patient, combining the digital model with the image of a patient's tomogram, removing the planned teeth from a digital model of the jaw and reduction of a digital model of the jaw bones in places of future atrophy, identified on the tomograph Ie, as well as reconstructing the additional space at the site of future bone augmentation, after which the basis of the removable denture base with the placement of artificial teeth in the virtual articulator is observed along the borders of the prosthetic bed tissue with observance of the anthropometric characteristics of the patient, a direct denture is made of polymer using the additive manufacturing method, deeply stained the resulting prosthesis, teeth are removed, the holes are augmented or osteosynthesis is performed, after which the prosthesis is attached and fixed.