RU2844235C1 - Method for making removable dentures for patients with completely absent dentition and unfavourable clinical conditions of denture fixation - Google Patents

Abstract

FIELD: medical science.

SUBSTANCE: invention refers to medicine, namely to a method for making removable dentures in completely absent dentition in the patients with unfavourable clinical conditions of denture fixation. Optical scanning is carried out to obtain three-dimensional models of the jaw mucosa, attached and mobile gums and transitional folds, head and face of the patient, as well as cone-beam computed tomography of the patient's head. Formed images are compared in the virtual space of the dental structure modelling software. That is followed by a three-dimensional modelling of a prosthesis basis and teeth setting therein. 3D printing method is used to make a prosthesis basis of a pink dental photopolymer; the teeth are printed of a white photopolymer. Prosthesis basis is bonded to the teeth after the post-printing treatment with red photopolymer resin. Prior to the optical scanning of the jaws, the patient’s oral cavity is covered with sections of atrophic mucosa and bone protrusions with a clasp wax plate 0.3 mm thick. Fixing it with a layer of adhesive for fixing removable dentures.

EFFECT: provided reliable fixation and stabilization of functional removable dentures made by 3D printing method in patients with unfavourable clinical conditions.

1 cl, 1 ex

Description

Field of technology to which the invention relates

The invention relates to the field of medicine, namely to orthopedic dentistry, and can be used to manufacture prostheses in the complete absence of teeth, using the volumetric printing method, in patients with unfavorable clinical conditions.

State of the art

Prosthetics for patients with complete loss of teeth is one of the important sections of modern orthopedic dentistry. Many problems of this section of clinical medicine, unfortunately, have not yet received a final solution. Among such problems is, first of all, prosthetics for patients with unfavorable clinical conditions on the edentulous lower jaw, when doctors still experience great difficulties in achieving good results.

In case of unfavorable anatomical and topographic conditions of the prosthetic bed - the presence of areas within the prosthetic bed with an acute shape of the alveolar process, sharp edges of the sockets, significant tuberosity of the alveolar process, thinned, poorly pliable mucous membrane, as well as increased pain sensitivity, the use of prostheses with rigid bases becomes difficult (Patent of the Russian Federation 164590 dated 10.09.2016).

A method for producing a prosthesis from photopolymerizable plastic is known. First, a bilateral impression of the upper and lower jaw is obtained, scanned with a three-dimensional laser scanner. Then a digital model of the prosthesis is obtained using a database. Based on the obtained digital data, special transparent shells for the prosthesis base and dental arches are made on a lithographic machine, plastic of the color of the gum and teeth, respectively, is placed in them and photopolymerized. The method was proposed by Maeda Y. et al. (Japan) and published in the journal The International journal of Prosthodontics 1994, 7 (1), p.17-21.

A method for producing dental prostheses using computer modeling and rapid prototyping technologies is known. The clinical stages include obtaining impressions and models, determining the central relationship using wax rollers. This is followed by obtaining digital information using a three-dimensional laser scanner. Using the database, artificial teeth are placed. The basis of the future prosthesis, its boundaries and contours of the vestibular surface are designed using software. After obtaining a digital model of the prosthesis, a virtual mold is created for molding, the inner surface of which has outlines according to the designed configuration of the prosthesis. The mold is made on a three-dimensional inkjet printer from a special composite that is safe for humans. Then the prosthesis is prepared using traditional plastic pressing technology (Study on CAD/RP for removable complete denture // Computer Methods and Programs in Biomedicine. - 2009 (93) - p.266-272, Yuchun Sun, Pejun Lu, Yong Wang, China).

A method for producing a denture from photopolymerizable plastic is known. First, a bilateral impression of the upper and lower jaws is obtained and scanned with a three-dimensional laser scanner. Then, a digital model of the denture is obtained using a database. Based on the obtained digital data, special transparent shells for the denture base and dental arches are made on a lithographic machine, plastic of the color of the gum and teeth, respectively, is placed in them and photopolymerized. The method was proposed by Maeda Y. et al. (Japan) and published in the journal The International journal of Prosthodontics 1994, 7 (1), p. 17-21. A method for modeling and manufacturing a denture containing a gingival portion and artificial teeth is known, which includes the following stages: obtaining three-dimensional scanning data representing at least a part of the patient's oral cavity; virtual modeling of at least a part of the denture using the three-dimensional scanning data; creation of virtual teeth representing the artificial teeth; virtual modeling of at least one of the virtual teeth to obtain a number of virtual modeled teeth; manufacturing the virtual modeled teeth from a first material; manufacturing a gingival portion from a second material; manufacturing at least part of a dental prosthesis by automated manufacturing means; and scanning a try-in sample of the dental prosthesis after checking its configuration in the patient's mouth and possible adjustment, as well as automatically recognizing changes based on the obtained data from scanning the try-in sample after adjustment and modifying the dental prosthesis design based on the obtained data (Convention priority 01.10.2010 US 61/388,956; Russian Federation Patent 2581029 dated 30.09.2011).

A known method for manufacturing a removable denture is carried out as follows: optical impressions of the edentulous jaw and antagonist teeth are obtained using 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 the 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 denture with the installed teeth and base is modeled, the volume of the marginal gum, namely the gingival papillae, is reduced to the level of the cervical line by 2 mm, the obtained 3D model of the removable denture is placed in the 3D printer software on the platform in such a way that the supports are located along the cutting and occlusal surfaces of the teeth, a polymer is poured into the printer for the manufacture of artificial dental crowns, corresponding to the color of the teeth agreed upon with the patient, and start printing, stop printing forcibly when the part of the prosthesis containing teeth and reduced gingival papillae to the cervical line is manufactured, change the polymer in the printer to pink in color, corresponding to the color of the gum, change the print settings accordingly to the polymer and start printing until completion, the removable denture obtained after printing is treated in ethyl alcohol with ultrasonic activation and exposed to light from a photopolymerization oven, then the reduced papillae are restored and individualized with pink light-curing plastic, the prosthesis is polished and fixed to the patient (Patent of the Russian Federation 2733161 dated 09.29.2020 - prototype).

The disadvantage of all the described methods is that the production of prostheses does not take into account bone protrusions and areas of atrophic mucosa, which must be isolated from the pressure of the prosthesis during chewing. When obtaining a physical impression, the mucosa is compressed, which leads to additional pressure on problem areas; with the digital manufacturing method, a contactless optical impression is obtained, which levels out the above-described problem and increases the accuracy of the display of the prosthesis to the tissues of the prosthetic bed.

The task to be solved by the invention is the high-precision production of functional removable dentures for patients with unfavorable clinical conditions.

Disclosure of the essence of the invention

The technical result achieved is to ensure reliable fixation and stabilization of functional removable dentures manufactured using the volumetric printing method in patients with unfavorable clinical conditions (the presence of areas within the denture bed with an acute form of the alveolar process, sharp edges of the sockets, significant tuberosity of the alveolar process, thinned, poorly pliable mucous membrane, as well as increased pain sensitivity).

The technical result of the invention is achieved by performing the following set of techniques:

optical scanning to obtain three-dimensional models of the jaw mucosa, attached and mobile gums and transitional fold, head and face of the patient,

perform a cone beam computed tomography scan of the patient's head,

compare the obtained images in the virtual space of the program for modeling dental structures,

based on the patient's anthropometric data, they perform three-dimensional modeling of the prosthesis base and place teeth in it,

after which, using the volumetric printing method, the base of the prosthesis is made from pink dental photopolymer, the teeth are printed from white photopolymer,

connect the base of the prosthesis to the teeth after post-printing treatment with red photopolymer resin,

Before performing an optical scan of the jaws, the patient's oral cavity is covered with a 0.3 mm thick wax clasp plate to cover the atrophic mucosa and bone protrusions,

fix it with a layer of adhesive for fixing removable dentures.

The method of isolating the atrophic mucosa and bone protrusions before scanning the jaws allows us to form a gap of 0.3 mm between the specified areas of the prosthetic bed and the prosthesis base. The gap value was obtained experimentally. We found that this gap size is sufficient to relieve the load on problem areas. The formed gap can be used as a reservoir for dental adhesive that improves fixation and stabilization of the prosthesis, thereby ensuring its prolonged action, saving the use of adhesive and its ingress into the oral cavity in the form of excess during application.

Thus, as a result of the conducted experimental studies, we have found that the reliability of fixation and stabilization of functional removable dentures is ensured by the fact that before performing optical scanning of the jaws, the patient's oral cavity is covered with a 0.3 mm thick clasp wax plate, fixing it with a layer of adhesive. Changing the thickness of the wax does not lead to the required adhesion.

Implementation of the invention

The proposed method for manufacturing removable dentures for patients with unfavorable clinical conditions is carried out as follows:

1. In a patient with a complete absence of teeth in the oral cavity, areas of atrophic mucosa and bone protrusions are covered with a 0.3 mm thick wax clasp plate, fixing it with a layer of adhesive for fixing removable dentures.

2. Obtain an optical impression of the jaw mucosa, attached and mobile gums, and transitional fold

3. A three-dimensional image of the patient's head and face when smiling is obtained using the facial scanning method.

4. Cone beam computed tomography of the patient's head is performed.

5. The obtained images are compared in the virtual space of the CAD\CAM system software, for example, Avantis 3D, into a single 3D scene.

6. Guided by the patient’s anthropometric parameters, revealed by computed tomography, interalveolar height parameters and articulatory movements recorded by means of electronic axiography, three-dimensional modeling of the prosthesis base and placement of teeth is performed.

7. Using the volumetric printing method, the base of the prosthesis is made from pink dental photopolymer, for example, Harz Labs Dental Pink

8. Artificial teeth are printed from white photopolymer, for example, Harz Labs Dental Sand.

9. Connect the base of the prosthesis to the teeth with a red photopolymer resin, for example, Harz Labs Dental Pink, which is distinguished by subsequent photopolymerization.

Clinical example

Patient V., 74 years old, came to the clinic with complaints of constant pain and sores in the mucous membrane under a removable upper jaw denture when eating, as well as unsatisfactory fixation of the denture.

On examination of the oral cavity: The patient has no teeth on the upper and lower jaw. On the mucous membrane of the upper jaw, in the projection of the apex of the alveolar process in the position of the missing tooth 24, a bone protrusion is noted, over which a decubital ulcer is visualized. A similar ulcer is noted in the projection of the torus.

Treatment:

A 0.3 mm thick plate of clasp wax was fixed in the patient’s oral cavity over the decubital ulcers on the mucous membrane of the upper jaw in the position of the missing tooth 24 and torus using Korega cream for fixing removable dentures, having previously been cut to the shape of the indicated formations with an overlap of 2 mm along the entire perimeter.

We obtained optical impressions of the jaw mucosa, attached and mobile gums, and transitional fold, as well as a three-dimensional image of the patient's head and face when smiling using the facial scanning method. We performed cone-beam computed tomography of the patient's head. In the virtual space of the CAD\CAM software system, Avantis 3D, we compared the obtained images into a single 3D scene. Guided by the patient's anthropometric parameters revealed by computed tomography, interalveolar height parameters and articulatory movements recorded using electronic axiography, we performed three-dimensional modeling of the prosthesis base and teeth placement. Using the volumetric printing method, we made the prosthesis base from pink dental photopolymer, Harz Labs Dental Pink, the artificial teeth were printed from white photopolymer Harz Labs Dental Sand and connected them together with red photopolymer resin. The prosthesis was fixed in the patient’s oral cavity, after applying Korega fixation cream to the ulcer projections.

During the follow-up examination a week later, the mucous membrane of the upper jaw showed no bruises or ulcers, and the fixation and stabilization of the prosthesis during functional tests was satisfactory. From the patient's survey, it was found out that the prosthesis did not cause discomfort during meals and was fixed well.

Claims (10)

A method for manufacturing removable dentures for patients with a complete absence of teeth and unfavorable clinical conditions for fixing the dentures, including optical scanning to obtain three-dimensional models of the jaw mucosa, attached and mobile gums and transitional fold, head and face of the patient, perform a cone beam computed tomography scan of the patient's head, compare the obtained images in the virtual space of the program for modeling dental structures, based on the patient's anthropometric data, they perform three-dimensional modeling of the prosthesis base and place teeth in it, after which, using the volumetric printing method, the base of the prosthesis is made from pink dental photopolymer, the teeth are printed from white photopolymer, connect the base of the prosthesis to the teeth after post-printing treatment with red photopolymer resin, characterized in that Before performing optical scanning of the jaws, the patient's oral cavity is covered with a 0.3 mm thick wax clasp plate to cover the atrophic mucosa and bone protrusions, fix it with a layer of adhesive for fixing removable dentures.