RU2828571C1 - Method of fixing complete removable dentures made by cad/cam method - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, particularly to orthopaedic dentistry, and is intended for use in orthopaedic treatment of patients with complete adentia. Prototype of the prosthesis is used to determine the degree of its fixation. Prototype is corrected and the prosthesis is scanned after its correction with making changes to the final prosthesis design. To determine the degree of fixation of the prototype of the prosthesis, test tests are carried out, which demonstrate functional suction of the prosthesis. Fixation of the distal part of the prosthesis of the upper and lower jaws is checked by pressing the front teeth with a finger, pushing them towards the lips, and the fixation of the front part is checked by pulling the incisors up and down depending on the jaw. It is noted that the edges of the prosthesis are in accordance with the valve zone with vertical finger pressure on one of the sides of the upper and lower prostheses, in the area of lateral teeth, the opposite side of the prosthesis does not rise and when the lower jaw moves back and forth, to the right and to the left during sliding contacts with antagonists, prostheses remain stable. If observing unsatisfactory fixation of the prosthesis during the tests, the prosthesis is shortened on the detected area, or the prosthesis edge is lengthened and/or expanded with the help of silicone material to form the borders. Silicone material, with manual activation of the main layer with a catalyst, is formed in the form of a flagellum or a mixing gun with a nozzle is used. Silicone material is applied on the prosthesis area in need of correction, then the prosthesis is re-introduced into the oral cavity; dynamic tests are performed to correct the length, thickness and shape of the prosthesis edge in accordance with the valve zone; if necessary, the silicone material is applied on the prosthesis edge and the tests are repeated.

EFFECT: due to use of the stage of checking fixation of the prototype of the prosthesis, the method allows to improve fixation of complete removable dentures made by CAD/CAM method.

1 cl, 2 ex

Description

The invention relates to medicine, in particular to orthopedic dentistry, and is aimed at improving the quality of orthopedic treatment for patients with complete edentia.

It is known that one of the significant drawbacks of complete removable dentures made by digital method is often their insufficient fixation in the oral cavity. This is due to the fact that when scanning edentulous jaws directly in the oral cavity, the degree of compliance and mobility of the prosthetic bed is not taken into account, as a result of which a static image of the supporting tissues is used in further work.

In addition, during intraoral scanning it is difficult, and sometimes impossible, to determine and record the correct position of the transition fold and neutral zone. Because of this, later, at the stages of computer modeling, it is difficult to determine the boundaries of the prostheses to the level of the passive-mobile mucosa for their correct fixation and functioning.

For this reason, the availability of digital tools for lengthening and expanding the boundaries of future denture bases is not always effective, since the true picture of the mobility of folds, strands, and mucous membrane in the valve zone of the patient's oral cavity does not correspond to the image on the computer screen.

A "Method for manufacturing a removable dental prosthesis" (RU2733161C1) is known, in which optical impressions of the edentulous jaw and antagonist teeth are obtained by intraoral scanning, cone beam computed tomography and a virtual image of the face with a wide smile, the obtained digital data are compared in the virtual space of a 3D modeling program and, based on the anthropometric data of the obtained 3D scene, the interalveolar height and position of the teeth in relation to the alveolar bone are determined, a removable dental prosthesis with installed teeth and a base is modeled and then printed using the 3D printing method.

The disadvantage of this method is the lack of a stage of testing the design of the prosthesis directly in the oral cavity, using a prototype of the prosthesis.

A "Method for manufacturing removable dentures" (RU2721891C1) is known, in which, using anthropometric parameters of the patient's face, interalveolar height and articulatory movements, three-dimensional modeling of the denture base and teeth placement is performed, physical models of the jaw, antagonist teeth and a prototype of the removable denture are manufactured using 3D printing of virtual modeled objects. The prototype of the removable denture is tried on, coordinated and selected in the patient's oral cavity.

The disadvantage of this method is the absence of a degree of fixation of the prototype at the stage of trying on the prosthesis prototype.

The technique “Digital manufacturing of complete dentures using a combination of additive and subtractive manufacturing technologies” is described.

//Heliyon. 11 May 2023;9(5):e16168.doi:10.1016/j.heliyon.2023.e16168.

The difference in the method is that functional impressions are taken at the stage of trying on the prototype of the prosthesis and the height of the lower part of the face is specified, and there is no verification of the fixation of the prototype.

The closest to the proposed method is the "Method for Modeling and Manufacturing a Denture" (RU2581029C2), which involves trying on a prototype of the denture to model, give thickness and shape to the gingival portion of the denture using wax. The method is distinguished by the fact that it includes the use of offsetting, forming curved lines and smooth conjugation to model the gingival portion of the denture relative to the patient's existing gum and virtual teeth. After checking and possibly adjusting the try-in sample of the denture in the patient's mouth, the gingival portion is modeled based on the adjusted try-in sample of the denture and printed from a hard material.

The disadvantage of this method is the lack of verification of the fixation of the trial sample and additional functional design of the valve zone of the prototype to improve its fixation.

The objective of the invention is to eliminate the said disadvantages by using the design verification stage to check the fixation of the prosthesis and measures aimed at improving its fixation.

The essence of the proposed method is that at the standard stage of computer-aided manufacturing of complete removable dentures – checking the design, using a 3D-printed analogue of the denture, in case of unsatisfactory fixation, additional design of the denture boundaries is carried out, with its subsequent scanning and making changes to the virtual design.

The method for improving the fixation of complete removable dentures manufactured using the CAD/CAM method is as follows: at the stage of checking the design of the denture (checking the relationship of the jaws, the height of the lower part of the face, determining the correctness of occlusal contacts, the severity of curves, aesthetic indicators, etc.), it is necessary to conduct tests demonstrating the functional suction of the denture.

The fixation of the distal part of the upper and lower jaw prosthesis should be checked by pressing the front teeth with a finger, pushing them towards the lips. To check the fixation of the front part - by pulling the incisors down or up - depending on the jaw.

When vertical pressure of the finger is applied to one side of the upper or lower denture, in the area of the lateral teeth, the opposite side of the denture should not rise. A slight displacement of the denture is permissible, within the limits of the mucous membrane compliance, with its overall stability.

Also, the dentures must remain stable when the lower jaw moves forward and backward, right and left during sliding contacts with the antagonists.

If unsatisfactory fixation of the prosthesis is detected during the testing process, it is necessary to shorten the border of the prosthesis in the identified area, or lengthen or widen the edge of the prosthesis using a silicone material for shaping the borders (for example, Bisico function-Germany).

The material is formed in the form of a flagellum (with manual activation of the main layer with a catalyst), or a mixing gun with a special nozzle is used, after which it is applied to the area of the edge of the prosthesis that requires correction.

Next, the prosthesis is inserted into the oral cavity and the length, thickness and shape of the edge of the prosthesis are adjusted in accordance with the valve zone using movements of the facial muscles. Additionally, the following is performed: wide opening of the mouth, retraction of the cheeks, stretching of the lips as when pronouncing the sound "i", stretching of the lips into a tube as when pronouncing the sound "u", movement of the lower jaw to the left and right, pronouncing the drawn-out sound "a". Next, the doctor checks for the presence of the marginal closing valve, if necessary, reapplying silicone or thermoplastic masses, repeating these tests.

If necessary, the functional material is applied not locally, but along the entire border of the upper or lower prosthesis, forming a closing valve.

After this, the analogue of the removable denture is scanned and in a computer program, using digital tools, the length, width and shape of the borders are also corrected based on the objective data obtained in the oral cavity.

The advantage of this method is the improved individualization of the process of digital production of prostheses, which does not require additional clinical stages, improving the functional viability of removable dentures.

Clinical example #1

Patient Zh., 68 years old, sought orthopedic treatment for complete edentia of the upper jaw using the CAD/CAM method. After 3D scanning of the edentulous upper jaw, the computer program "Dentsply Sirona CIS inLab SW 20.0" (USA) was used to mark the jaw models, define the virtual boundaries of the complete removable denture, install the teeth, and print a prototype of the denture from a polymer material on a 3D printer.

The design verification stage was carried out in accordance with the protocol and verification tests for prosthesis fixation were carried out. Fixation of the distal part of the prosthesis was checked by pressing the front teeth with a finger, pushing them towards the lips. To check fixation of the anterior (frontal) part - by pulling the incisors down. With vertical pressure on the chewing teeth on the right, poor fixation of the prosthesis on the left, in the area of the maxillary tubercle, shortening of the prosthesis border was determined.

After mixing the silicone impression material "Bisico function", it was applied from a syringe to the edge of the prosthesis in the area of the retrosternal space. The prosthesis was inserted into the oral cavity, functional tests were carried out: wide mouth opening, swallowing, movements of the facial muscles. Satisfactory fixation of the prototype of the upper jaw prosthesis was obtained. The prototype was scanned, changes were made to the modeling program of the prosthesis base in accordance with the new length and shape of the border. The prosthesis was made by milling. Fixation of the upper jaw prosthesis, checked at routine medical examinations throughout the year, is good.

Clinical example #2

Patient P., 64 years old, sought orthopedic treatment for complete edentia of the lower jaw using the CAD/CAM method. After 3D scanning of the edentulous lower jaw, the computer program "Dentsply Sirona CIS inLab SW 20.0" (USA) was used to mark the jaw models, define the virtual boundaries of the complete removable denture, install the teeth, and print a prototype of the denture from a polymer material on a 3D printer.

The design verification stage was carried out in accordance with the protocol and verification tests for fixation of the lower jaw prosthesis were carried out. Fixation of the distal part of the prosthesis was checked by pressing the front teeth with a finger, pushing them towards the lips. To check fixation of the anterior (frontal) part - by pulling the incisors up. With a wide opening of the mouth and movement of the tongue to the right and left, poor fixation of the lower jaw prosthesis prototype in the area of the frenulum of the tongue was determined.

After mixing the silicone impression material "Bisico function", it was applied from a syringe to the edge of the prosthesis in the area of the frenulum of the tongue. The prosthesis was inserted into the oral cavity, functional tests were carried out, licking the upper lip, pulling the tongue forward towards the tip of the nose, movements of the facial muscles. Satisfactory fixation of the prototype of the lower jaw prosthesis was achieved. The prototype was scanned, changes were made to the program for modeling the prosthesis base in accordance with the new length and shape of the border in the area of the frenulum of the tongue. The prosthesis was made using the milling method. During dynamic observation, good fixation of the lower jaw prosthesis made using the digital method was determined. The patient is satisfied with the treatment result.

Claims (1)

A method for fixing complete removable dentures manufactured using the CAD/CAM method, including using a prototype of the denture to determine the degree of its fixation, correcting the prototype and scanning the denture after its correction with changes in the final design of the denture, characterized in that in order to determine the degree of fixation of the prototype of the denture, test tests are carried out demonstrating the functional suction of the denture, wherein the fixation of the distal part of the denture of the upper and lower jaws is checked by pressing a finger on the front teeth, pushing them towards the lips, and checking the fixation of the front part - by pulling the incisors down and up - depending on the jaw, while it is noted that the edges of the denture - in accordance with the valve zone with vertical finger pressure on one of the sides of the upper and lower dentures, in the area of the lateral teeth, the opposite side of the denture does not rise and when the lower jaw moves back and forth, right and left during sliding contacts with antagonists, the dentures remain stable; if unsatisfactory fixation of the prosthesis is detected during the tests, the prosthesis is shortened in the identified area, or the edge of the prosthesis is lengthened and/or widened using silicone material to shape the borders, wherein the silicone material, with manual activation of the base layer with a catalyst, is formed in the form of a flagellum or a mixing gun with a nozzle is used, after which the silicone material is applied to the area of the prosthesis that requires correction, then the prosthesis is reintroduced into the oral cavity, dynamic tests are carried out, correcting the length, thickness and shape of the edge of the prosthesis in accordance with the valve zone, if necessary, silicone material is reapplied to the edge of the prosthesis and the tests are repeated.