RU2531445C2 - Method for making temporary denture - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to dentistry, and is applicable in recovering the solid tissue volume and filling the denture defects before the final prosthetic repair. A cast dental model is made. Denture defects are filled with artificial acryl teeth with selecting their colour. The dental defect is to be filled. A cellulose plastic tray is made on the cast dental model with artificial teeth fixed. The tray is cut out of the produced plate. The tray is cut off along the dentogingival line of the repaired teeth. After abutment teeth are prepared, the tray with the artificial teeth is fitted to the patient's denture with pink elastic plastic applied on an inner surface of the artificial acryl teeth, and the inner surface of the tray is filled with autopolymer resin within the prepared teeth. The tray is filled with autopolymer resin of the temporary denture at least twice. The first layer of cold polymerisation plastic 1.0-1.5 mm thick is used to fill the solid tissue loss, while the second layer 0.5-1.0 mm thick restores the pink aesthetics and fixes the artificial acryl teeth.

EFFECT: method enables filling the denture defects, preventing the recurrences following the orthopaedic or orthodontic dental displacement by making and fixing the reliable and aesthetic structure with the acryl teeth and autopolymer resins on the patient's denture.

4 cl, 14 dwg, 2 ex

Description

The invention relates to medicine, in particular dentistry, and can be used to restore the volume of hard tissues and replenish defects in the dentition before the final prosthetics.

The restoration of the volume of hard tissues and the replacement of defects in the dentition with any type of crowns made of metal, all-ceramic, plastic, combined, etc. is the most common way to restore chewing effectiveness, aesthetics and prevention of development of dentoalveolar anomalies and deformations in orthopedic dentistry.

An important stage of prosthetics with dental crowns and bridges is the use of temporary crowns at the stage of manufacturing permanent structures, as well as for the prevention of the development of dentoalveolar deformities. The manufacture and use of temporary provisional crowns ensures the functional stability of the dentofacial system (occlusal, phonetic and aesthetic) and the prevention of periodontal diseases by restoring the anatomical contour of the clinical crown, and also prevents irritation of the gingival margin (Zakharyan L.O., 2011). After orthodontic reconstruction before fixing a permanent fixed structure for the prevention of recurrence of deformity, it is necessary to produce a retention prosthesis that does not allow deformations of the dentition to develop due to the absence or decay of teeth (Gavrilov EA, 1984). Nevertheless, quite often practitioners neglect temporary crowns because of the high cost, complexity of manufacture, or in order to save their own time. However, the manufacture of provisional designs that make up for defects in the dentition during the manufacture of permanent prostheses, sometimes, indeed, causes a number of difficulties. The greatest difficulty is the completion of a dentition defect based on teeth located in different anatomical planes: the frontal and sagittal (teeth of the front and side sections). Omnidirectional vectors acting on the prosthesis during chewing often lead to a fracture of the temporary prosthesis in the area of articulation of acrylic or composite crowns, which are most often used in dentistry as temporary. And also to create an aesthetic effect of the crown after fitting it is necessary to modify the laboratory, which is extremely time-consuming.

There is a method of manufacturing temporary crowns by removing the impression from the dentition, dissecting the abutment teeth and applying an impression with cold polymerization plastic onto the prepared teeth (Kalamkarov Kh.A. Orthopedic treatment using ceramic-metal prostheses. Media sphere, 1996, 53 pp.).

A significant drawback of this method is the fragility of the resulting structures and, as a consequence, the high risk of structural fracture. Low aesthetics does not allow the use of such crowns in the front.

A more advanced method for the manufacture of temporary crowns by obtaining mouthguards with the further introduction of a composite into it with its further polymerization is known. After that, kappa is removed, see RF patent No. 2402994 - prototype. A method of restoring occlusal surfaces of a chewing group of teeth involves making a mouthguard on a row of teeth obtained by pressing a model of the patient's jaw by vacuum in a vacuum apparatus after preparing a problem tooth reconstructed with dental wax using an automated T-Scan bite analysis system that meets the principles of modern gnatology, with the subsequent introduction of bioinert composite material into the mouthguard, its fixation on a number of teeth and polymerization.

The disadvantages of this method include the fact that the crowns obtained in this way are also fragile and prone to fracture. The process of separating mouthguards after polymerization causes significant difficulties in clinical practice and requires a long development in the oral cavity. This method cannot be used for the manufacture of temporary crowns after orthopedic or orthodontic tooth movements. This is due to the fact that acrylic plastic practically does not have elasticity and fracture elasticity and, under conditions of an incompletely stabilized dentofacial system, quickly breaks or unlocks.

Thus, there is a need to create temporary crowns of high strength and aesthetics that are installed on teeth located both in the same plane and in different anatomical planes that can make up for a dentition defect, stabilize the dentofacial system after eliminating dentofacial deformities, and also prevent the development of relapses. All this leads to an increase in the effectiveness of orthopedic treatment and is the task of the invention.

The object of the invention is achieved by combining well-known features, such as making a gypsum model of the dentition followed by making mouthguards from cellulose plastic obtained by pressing the model of the patient’s jaw in a vacuum apparatus, cutting the mouthguard along the tooth-gingival line of the restored teeth and then introducing a bioinert composite into the mouthguard material with fitting and polymerization, and new signs, namely, that on the gypsum model defects in the dentition using artificial acrylic teeth with their preliminary fixation on the model in the area of defects, then after making the mouthguard with fixing the artificial teeth in it by squeezing the teeth with a mouthguard, applying pink elastic plastic to the inner surface of the artificial acrylic teeth and filling the inner surface of the mouthguard with areas of the treated teeth with self-hardening plastic, after which they fit and fix the mouthguards to the stumps of the processed abutment teeth.

The mouthguards are filled with self-hardening plastic of a temporary prosthesis at least twice, the first is a layer of cold polymerization plastic with a thickness of 1.0-1.5 mm to compensate for the loss of hard tissues, the second is 0.5-1.0 mm to restore pink aesthetics and fix artificial acrylic teeth.

Replacement of defects in the dentition using artificial acrylic teeth is carried out with the creation of a gap between the artificial tooth and the antagonist tooth, equal to the thickness of the mouthguard.

Fixing mouthguards with acrylic teeth and self-hardening plastics on the patient's dentition is carried out at the time of manufacture of the permanent structure.

The novelty of the proposed method is to fill in the dentition defects of the dentition using artificial acrylic teeth with their preliminary fixation on the model in the area of defects, then after making the mouthguard with fixing the artificial teeth in it by squeezing the teeth with a mouthguard and applying pink elastic to the internal surface of the artificial acrylic teeth plastic and filling the inner surface of the mouthguard in the area of the treated teeth with self-hardening plastic carry out fitting and fixing the mouthguard to the cu molten treated supporting teeth.

Thus, the filling of defects in the dentition using artificial acrylic teeth on the gypsum model allows, in combination with self-hardening plastics and mouthguards to be filled, to create a strong and aesthetic design that allows you to replace dentition defects in the same plane and in different anatomical planes, as well as stabilize the dentition system, to prevent the development of dentoalveolar deformities and the development of relapses after an orthopedic or orthodontic movement of teeth in their normal position e.

Signs: filling of the mouthguard with self-hardening plastic in the area of the chewing surface of the temporary prosthesis, carried out at least twice, the first is a layer of cold polymerization plastic with a thickness of 1.0-1.5 mm to compensate for the loss of hard tissues, the second - 0.5-1.0 mm to restore pink aesthetics, the filling of defects in the dentition using artificial acrylic teeth is carried out with the creation of a gap between the artificial tooth and the antagonist tooth equal to the thickness of the mouthguard, and fixing the mouthguard with acrylic teeth and self-hardening plastics on the dentition of the patient, carried out at the time of manufacture of the permanent design, are signs that reveal the specific implementation of the main features, and are aimed at achieving the objectives of the invention.

So, fixing the mouthguards with acrylic teeth and self-hardening plastics on the patient’s dentition, carried out at the time of manufacture of the permanent design, allows you to save chewing, phonetic functions, as well as the aesthetics of the patient’s face.

According to the patent information search, the features of the proposed method have patentability criteria - novelty, inventive step and are industrially applicable.

The photo initially shows all the stages of manufacturing a prosthesis on a phantom - an artificial jaw.

Photo 1. Phantom dentition with the absence of 3.5 and 3.6,

Photo 2. A plaster model of the dentition, supplemented with artificial acrylic teeth in the areas of 3.5 and 3.6. The occlusal surfaces are cut by 0.5 mm, the acrylic teeth are set, without reaching 0.5 mm (the mouthguard thickness) before contact with the antagonists.

Photo 3. Kappa mounted on the dentition of the gypsum model, supplemented with artificial acrylic teeth in the areas of 3.5 and 3.6.

Photo 4. A temporary fixed retention bridge with a support of 3.4 and 3.7 and an intermediate part made of acrylic teeth.

Photo 5. A temporary fixed retention bridge with a support of 3.4 and 3.7 is fixed to the abutment teeth of the artificial dentition model.

Photo 6 shows the dentition with the absence of 1.5 and the destroyed coronal parts 1.4 and 1.6. 1.4 and 1.6 are processed under a fixed orthopedic design. Stump 1.4 restored by the pin-stump tab.

Photo 7 shows the dentition with destroyed coronal parts 3.4 and 3.5.

Photo 8 shows a model of the dentition, supplemented with an artificial acrylic tooth with the replacement of the defect in the region of 1.5 and the restored anatomical shape of 1.4 and 1.6 with composite material.

Photo 9 shows a model of the dentition with a restored anatomical form 3.4 and 3.5 composite material.

Photo 10 shows a mouthguard made according to the model of the dentition, supplemented with one artificial acrylic tooth in the area of the defect 1.5 and with the formed anatomical shape 1.4 and 1.6.

Photo 11 shows kappa with a formed anatomical form 1.4 and 1.6.

Photo 12 shows a temporary non-removable retention prosthesis fixed on the abutment teeth of the patient with a support of 1.4 and 1.6 and an intermediate part of 1.5.

Photo 13 shows a temporary non-removable retention prosthesis supported by 1.4 and 1.6 and an intermediate part 1.5 (with closed dentition).

Photo 14 shows a temporary non-removable retention prosthesis supported by 3.4 and 3.5.

The proposed method is as follows.

Initially, alginate mass removes dental imprints of the upper and lower jaws. Then, on the print, plaster models of the jaws are cast. The area of defects of the dentition is supplemented with artificial acrylic teeth with the selection of their color. In case of a tooth defect, it is supplemented by applying self-hardening plastic to the gypsum model according to the anatomical shape of the tooth. Then, on the obtained model with artificial teeth fixed on it, a mouthguard is made of cellulose plastic by thermoforming, in which the working model is placed in a vacuum apparatus and the heated celluloid plate is pressed on it. From the resulting plate, a mouthguard is cut with coverage of the extreme from the problem teeth. Then, the mouthguard is trimmed along the periodontal line of the restored teeth. After preparation of the abutment teeth, fit the mouthguards with artificial teeth to the patient’s dentition with the preliminary introduction of self-hardening plastic into it. After polymerization of the plastic, its excess is removed by cutting with a milling cutter, and the mouthguard is relocated by layering (applying) self-hardening elastic pink plastic on the inner surface of the artificial teeth. The final operation is fixing the manufactured structure to the abutment teeth on temporary cement (for example, “Repin”, Spofa Dental, Czech Republic).

A specific example of the use of the proposed method.

Initially, for each specific patient, the preparation of a problem tooth (s) is carried out in compliance with a number of standard rules, i.e. plaque removal from all surfaces of the tooth with a brush and polishing paste, complete removal of carious tissues, until crepitus sounds, removal of pigmented dentin, check with a caries marker. Then, in the sequence listed below, the required operations of the proposed method are carried out.

Patient A. (38 years old) complained of an aesthetic defect expressed in the absence of 1.5 and the destruction of 1.4 and 1.6. An external examination showed no asymmetry of the face, one third of the face is proportional. From the anamnesis: 1.5 has been absent for more than 10 years, 1.4 and 1.6 were previously covered with a cast bridge with an intermediate part of 1.5. Mucous in the area 1.4, 1.5, without pathological changes. The stump 1.4 is supplemented by a pin-stump tab.

Discementation of the bridge with a support of 1.4 and 1.6 occurred about two years ago. I did not go to the dentist. As a result, a dental-alveolar movement of 4.5 and 4.6 arose. After the correction of provisions 4.5 and 4.6, they began to compensate for the defect 1.5 and restore the anatomical form 1.4 and 1.6. Diagnosis: Partial secondary adentia 1.5. Kennedy Grade III. The etiological sign is caries and its complications.

In order to make up for the dentition defect and normalize the chewing function for the period of stabilization of the dentition, after moving 4.5 and 4.6, the patient was asked to make a temporary non-removable retention prosthesis with a support of 1.4 and 1.6 and an intermediate part of 1.5. In the future, it was planned to replace it with a bridge-like ceramic-metal prosthesis with a support of 1.4 and 1.6 with an intermediate part 15 on the upper jaw.

On the first visit to the alginate impression mass “Hydrogum” (Zhermak, Italy), an imprint of the upper and lower jaws was taken. Then, castings were made from gypsum of the working and auxiliary models, modeling from a composite of anatomical shape 1.4, 1.6 teeth. The absence of 1.5 was compensated by an artificial acrylic tooth, and the anatomical shape of 1.4 and 1.6 was restored using the Evicrol composite polymerisation material (Spofa Dental, Czech Republic). Then, on the obtained model with an artificial tooth fixed on it in the region 1.5 and restored anatomical forms 1.4 and 1.6, they made a cellulose plastic mouthguard by thermoforming, in which the working model was placed in a vacuum apparatus and the heated celluloid plate was pressed on it. A kappa was cut from the plate. Pruning was performed along the periodontal line of the restored teeth. The remains of the composite were removed from the mouthguard and washed.

During the second visit, the abutment teeth were treated under ceramic-metal crowns, and two-layer two-stage impressions were removed with Speedex silicone mass (Coltene, Switzerland). After processing, temporary crowns were rebased by introducing Temp S self-hardening plastic (Bisico Germany) into the mouth of the mouthguard, matching the color of the patient’s natural teeth. After hardening, the excess plastic was cut off with a milling cutter and the second mouthguard was relocated by layering (applying) the self-hardening elastic pink plastic “PattemResin LS” (GC, Japan) on the inner surface of the artificial teeth. Then we fixed the design to the abutment teeth on temporary cement (Repin, Spofa Dental, Czech Republic).

On the third visit, temporary crowns were removed from the oral cavity, a permanent structure was attached and a permanent structure was fixed on glass ionomer cement.

As a result of using the proposed method, the created temporary design of the prosthesis had an aesthetic appearance, was durable and convenient to use. Further observation showed that there was no relapse of dentition.

The second specific example of the proposed method. Initially, patient B. with coronal parts 3.4 and 3.5, with a diagnosis of partial secondary adentia 3.6, 3.7, Kennedy class II, impressions of the upper and lower jaws were removed with an alginate mass. Further on the impressions cast plaster models of the jaws. Anatomical form 3.4 and 3.5 was restored using a composite material of chemical polymerization. Then, on the resulting model, a mouthguard was made of cellulose plastic by thermoforming. Next, the mouthguards were trimmed along the periodontal line of the restored teeth 3.4 and 3.5. After restoration of the stump 3.5 with a pin-stump insert and preparation of the abutment teeth, the mouthguards were fitted to the patient's dentition with the preliminary introduction of self-hardening plastic into Temp S (Bisico, Germany). After polymerization of the plastic, its excess was removed by cutting with a milling cutter. Then, the fabricated structure was fixed to the abutment teeth on temporary cement (Repin, Spofa Dental, Czech Republic).

The construction made fit in aesthetically and had high strength, provided by a combination of bonded mouth guards, artificial acrylic teeth and two layers of plastic.

Using the proposed method allowed to save the geometry and aesthetics of the surface of the dentition. At the same time, the self-hardening plastic located in the kappa gave it the necessary rigidity, and the kappa gave the entire structure elasticity and performed the role of a skeleton (frame). This feature made it possible to create temporary crowns on teeth located in different anatomical planes. The transparency and brilliance of the mouthguard create an illusion of enamel brilliance, expanding the indications of the use of this kind of temporary crowns in the front. The elasticity of the mouthguard explains the possibility of its use without stress for the entire chewing apparatus in conditions of a not fully stabilized dentition, after moving the teeth according to orthodontic and orthopedic indications.

Currently, the authors have developed guidelines for the use of the proposed method, conducted experimental work on its implementation. After a patent examination of the method, a decision was made to essentially proceed with its implementation.

Claims (4)

1. A method of manufacturing a temporary denture, including the manufacture of a gypsum model of the dentition, followed by manufacturing on the model of a mouthguard made of cellulosic plastic obtained by pressing a model of the patient's jaw in a vacuum apparatus, cutting the mouthguard along the gingival line of the restored teeth, followed by introducing a bioinert composite material into the mouthguard fitting and polymerization, characterized in that on the gypsum model make up the defects of the dentition using artificial acrylics x teeth with their preliminary fixation on the model in the area of defects, then after making the mouthguard with the artificial teeth fixed in it by squeezing the teeth with the mouthguard, applying pink elastic plastic to the internal surface of the artificial acrylic teeth and filling the internal surface of the mouthguard in the treated teeth with self-hardening plastic, after which carry out fitting and fixing the mouthguards to the stumps of the machined supporting teeth. 2. The method according to claim 1, characterized in that the mouthguards are filled with self-hardening plastic of a temporary prosthesis at least twice, the first is a layer of cold polymerized plastic with a thickness of 1.0-1.5 mm to make up for the loss of hard tissues, the second is 0.5 -1.0 mm to restore pink aesthetics and fixation of artificial acrylic teeth. 3. The method according to claim 1, characterized in that the filling of defects in the dentition with artificial acrylic teeth is carried out with the creation of a gap between the artificial tooth and the antagonist tooth equal to the thickness of the mouthguard. 4. The method according to claim 1, characterized in that the fixing of the mouthguard with acrylic teeth and self-hardening plastics on the dentition of the patient is carried out at the time of manufacture of the permanent structure.

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