RU2224481C2 - Method for manufacturing detachable dentures with elastic lining - Google Patents

Abstract

FIELD: medicine, orthopedic stomatology. SUBSTANCE: the present innovation deals with a tough foundation and an elastic lining, it includes developing elastic lining due to manufacturing wax model by an imprint of prosthetic part of mouth cavity, molding wax model in special cuvette with the help of molding mass, removing wax, developing pouring pathways and spreading the suggested composition to form elastic lining containing oligoalkylene polyisocyanate at the content of NCO-groups being 5.6- 6.8%, oligopolyatomic alcohol and catalyzer at the following ratio of weight portions: oligoalkylene polyisocyanate 100, oligopolyatomic alcohol 14.8-25.8, catalyzer 0.04-0.1 and keeping cuvette for forming a lining. After that one should carry out development of solid foundation. The present innovation enables to simplify and cheapen the method for obtaining detachable dentures of improved physico-mechanical properties. EFFECT: higher efficiency.

Description

 The invention relates to medicine, namely to orthopedic dentistry, and can be used for the manufacture of removable dentures.

 Orthopedic dentistry has increased and increasingly stringent requirements for materials for removable dentures, as the functional value of prostheses largely depends on the quality characteristics of the materials used.

 Under unfavorable anatomical and topographic conditions of the prosthetic bed - sharp atrophy of the alveolar ridge, the presence of sharp bony protrusions and exostoses, a thinned, malleable mucous membrane, as well as increased pain sensitivity, the use of prostheses with rigid bases becomes difficult or completely impossible. In these cases, the use of two-layer bases with an elastic lining facing directly to the tissues of the prosthetic bed is indicated.

 A known method of manufacturing removable dentures with an elastic lining, consisting in the fact that a composition based on silicone rubber is prepared immediately before use and the resulting mixture is applied to a hard acrylic basis of a denture. Curing of the lining takes place in the patient's oral cavity.

(RF patent 2187296, MKI A 61 K 6/093, publ. 2002)
The disadvantages of this method include the low adhesion of the lining to the basis of a removable denture (1.9 kg / cm). In addition, the presence of the components of the mixture in the patient's oral cavity can have an adverse effect on the mucous membrane.

 Known closest to the claimed method of manufacturing a two-layer basis of a removable denture based on polyurethanes, including the formation of a basis with an elastic lining, consisting in the fact that a two-layer wax model of the prosthesis is made from the imprint of the prosthetic part of the oral cavity, then the wax model is molded using molding material, then the upper layer of wax is removed, the gate runs are formed and the composition is poured to form a rigid base for a removable denture n and on the basis of polyurethane, then the lower wax layer is removed, holes are formed in the obtained rigid base, and the composition is filled to form an elastic lining containing a polyisocyanate with a content of NCO-groups of 3.7-5.5%, oligopolyatomic alcohol and tin dibutyl dilaurate as a catalyst, stand the cuvette to form a lining on a rigid basis, then open the cuvette, remove the prosthesis and carry out the final processing of the prosthesis (US Pat. US 4024636, MKI A 61 C 13/00, publ. 1977).

 In the known method, 4,4'-dicyclohexylmethanediisocyanate, isophorondiisocyanate, hexamethylene diisocyanate, 2,2,4-trimethyl-1,6-hexadiisocyanate, xylylenediisocyanate, "dimerilodecyldimethylene diisocyanate diamethylenediocyanated non-industrial water.

 The polyisocyanates used require special preparation conditions - vacuum degassing is carried out for 2-3 hours, as well as special storage conditions - under dry nitrogen in special containers.

 The composition used in the known method for producing an elastic lining of a removable denture layer is intended only for bases based on polyurethane, since it does not have sufficient adhesion to a rigid polymer layer, and connection with a rigid basis of a removable denture occurs due to the interaction of the isocyanate of the elastic layer with urethane groups of a rigid basis with the formation of an allophanate bond.

 The invention solves the problem of simplifying the method of obtaining a two-layer bases of removable dentures with an elastic lining based on polyurethane with improved physical and mechanical properties, while the rigid basis can be obtained from various polymeric materials.

The problem is solved due to the fact that in the method of manufacturing removable dentures containing a rigid base and an elastic lining, including the formation of an elastic lining by making a wax model by imprinting the prosthetic part of the oral cavity, molding the wax model in a special cuvette using a molding mass, removing wax , forming gate runs and pouring the composition to form an elastic lining containing polyisocyanate, oligopolyatomic alcohol and catalyst, cuvee aging s to form a liner followed by extraction and removal of the sprue, for pouring into the cuvette using a composition containing as polyisocyanate with a content oligoalkilenpoliizotsianat INC groups 5,6-6,8% at the following component ratio, mass parts .:
Oligoalkylene polyisocyanate - 100.0
Oligopolyatomic alcohol - 14.8-25.8
The catalyst is 0.04-0.1
and after the formation of the elastic lining, a rigid basis is formed.

 As an oligoalkylene polydiisocyanate, the composition may contain oligotetramethylene glycol diisocyanate (TU-38.103-137-78), or a mixture of oligoalkylene polyisocyanates of Trifor-C based on oligooxypropylene triisocyanate and oligooxypropylene diisocyanate.

 The composition may contain oligo hydroxypropylene triol with a molecular weight of 500 (Laprol 503, TU-6-05-1679-83), oligo hydroxypropylene triol with a molecular weight of 370 (Laprol 373, TU-6-05-221-831-85)) or oligooxypropylene diol with a molecular weight of 500 (Laprol 502, TU-6-05-18-54-78).

 As a catalyst, the composition may comprise tin dibutyl dilaurate or tin octoate. If it is necessary to obtain a colored basis, the composition may contain a dye, for example, pigment red 5C (TU 6-14-588-79) in an amount of 0.0001-0.00015 wt. hours, i.e. traces. The polyisocyanates used are degassed under vacuum before being used for 4 minutes.

 The proposed method allows to obtain a removable denture with an elastic lining based on polyurethane with improved physical and mechanical properties, with high adhesion to any polymer basis of removable dentures, in particular from polyacrylates. This simplifies the process of obtaining a two-layer removable dentures, because preliminary formation of an elastic lining allows the formation of a basis according to conventional technology, without any preliminary measures. The use of industrially-produced components allows to make the production of such prostheses massive.

 The results of preliminary clinical trials of the material obtained on the basis of the proposed composition comply with regulatory requirements that determine the possibility of its use in orthopedic dentistry, namely as a lining for the basis of combined removable dentures.

 The invention is illustrated by examples.

 Example 1

Based on the impression of the prosthetic part of the oral cavity, the wax structure of the elastic lining is modeled on the gypsum model, the gypsum model is formed with the wax structure of the elastic lining into a special cuvette using an organosilicon molding mass. After the mass hardens, the cuvette is opened, the wax is removed from the gypsum model, the gypsum model is isolated with a polyurethane varnish containing SKU-PFL-100 polyurethane by weight, Dia-X (methylenebis-ortho-chloraniline) - 18 parts by weight. and acetone - 30 parts by weight After this, the gypsum model is placed in the obtained form and the cell is collected. In the obtained slot through the sprues, the composition is poured to form an elastic lining, containing, by weight:
Oligotetramethylene glycol diisocyanate with a content of NCO-groups = 5.6% - 100
Oligooxypropylene glycol (M.M. = 500) - 22.2
Tin Dibutyl Dilaurate - 0.04
stand the cuvette to form the lining at room temperature for 5 hours.

 After the polymerization process is completed, the cuvette is opened, the molding material is cut, the gypsum model with the elastic lining made on it is removed, the gates are cut.

Then they begin to manufacture a rigid basis for a two-layer prosthesis with artificial teeth. On a gypsum model with an elastic lining on it, a wax design of the prosthesis base is made, placed in a special cuvette, which is filled with an organosilicon molding mass. After the molding material has solidified, the cuvette is opened, the wax removed, artificial teeth are set according to their prints in the obtained form. With the help of special devices, gate gates are prepared. In the collected cuvette, the composition is poured to obtain a polyurethane base, containing, by weight:
4,4'-diphenylmethanediisocyanate - 100.0
Oligooxypropylene triol, M.M. 370 - 100.0
Tin Dibutyl Dilaurate - 0.12
The cuvette is placed in a thermostat for 2 hours at 80 ^o C. After cooling, the cuvette is opened, a denture with a two-layer basis is removed, the gates are removed and the prosthesis is finished.

 Physico-mechanical properties of the polyurethane elastic lining of the resulting prosthesis are shown in the table.

 Example 2

The manufacture of a removable denture with an elastic lining is carried out in accordance with example 1, but to form a lining, use the composition of the following composition, parts by weight:
Oligotetramethylene glycol diisocyanate with a content of NCO groups = 5.8% - 100.0
Oligooxypropylene triol (M.M. = 370) - 16.4
Tin Dibutyl Dilaurate - 0.04
The cuvette with the composition is kept in a thermostat at 90 ^o C for 1 hour.

To obtain a hard basis use a composition containing, by weight:
4,4'-diphenylmethanediisocyanate - 100.0
Oligooxypropylene triol, M.M. 500 - 80.0
1,4-butanediol - 14.4
Tin Dibutyl Dilaurate - 0.1
The cuvette with the mixture is kept at room temperature for 10 hours. Then the cuvette is opened, a two-layer denture is removed, the gates are removed and the prosthesis is finished.

 Physico-mechanical properties of the polyurethane elastic lining of the resulting prosthesis are shown in the table.

Example 3
The manufacture of a removable denture is carried out in accordance with example 1, but to form an elastic lining, a composition of the following composition is used, parts by weight:
Oligotetramethylene glycol diisocyanate with NCO content = 6.0% - 100.0
Oligooxypropylenediol (M.M. = 500) - 14.8
Tin Dibutyl Dilaurate - 0.06
and to form a rigid basis for a two-layer removable denture, a composition containing, by weight, is used:
4,4'-diphenylmethanediisocyanate - 100
Oligooxypropylene triol, M.M. 500 - 23.5
Oligooxypropylene triol, M.M. 370 - 87.0
Tin Dibutyl Dilaurate - 0.15
Physico-mechanical properties of the polyurethane elastic lining of the resulting prosthesis are shown in the table.

 Example 4

The manufacture of a two-layer removable denture is carried out in accordance with example 1, but to form an elastic lining, a composition containing, by weight, is used:
Trifor-C (a mixture of oligooxypropylene triisocyanate and oligooxypropylene diisocyanate with a mass ratio of 51.5: 48.5 with an average content of NCO groups = 6.3%) - 100
Oligooxypropylene triol (M.M. = 370) - 19.0
Tin Octoate - 0.1
and for the manufacture of a rigid basis using a composition containing, by weight:
4,4'-diphenylmethanediisocyanate - 100.0
Oligooxypropylene triol, M.M. 500 - 103
1,4-butanediol - 8.0
Tin Octoate - 0.3
Physico-mechanical properties of the polyurethane elastic lining of the resulting prosthesis are shown in the table.

 Example 5

The manufacture of an elastic lining to obtain a two-layer removable denture is carried out in accordance with example 2, but using a composition containing, by weight:
Trifor-C (a mixture of oligooxypropylene triisocyanate and oligooxypropylene diisocyanate with a mass ratio of 51.5: 48.5 with an average content of NCO groups = 6.5%) - 100.0
Oligooxypropylene triol (M.M. = 500) - 17.2
Tin Octoate - 0.1
Then proceed to the manufacture of a rigid base removable denture. On a plaster model with an elastic lining on it, a wax design of the prosthesis base is made, and it is placed in a metal cuvette. Then the wax is softened, heated for 20 minutes and removed with boiling water to obtain a hollow prosthesis shape. The plaster mold is coated with Isokol-69. The cuvette is dried in air for 12 hours, then filled with the composition to obtain the basis of the Ftorax prosthesis, the mixture is compressed and polymerized in hot water: first, it is kept at a temperature of 70 ^o C for 60 minutes, then for 30 minutes with boiling water .

 Then the cuvette is opened, a two-layer denture is removed and the final treatment of the prosthesis is performed.

 Physico-mechanical properties of the polyurethane elastic lining of the resulting prosthesis are shown in the table.

 Example 6

The manufacture of a two-layer removable denture is carried out in accordance with example 5, but to obtain an elastic lining using a composition containing, by weight:
Trifor-C (a mixture of oligooxypropylene triisocyanate and oligooxypropylene diisocyanate with a mass ratio of 51.5: 48.5 with an average content of NCO groups = 6.5%) - 100.0
Oligooxypropylenediol (M.M. = 500) - 25.8
Tin Dibutyl Dilaurate - 0.1
Physico-mechanical properties of the polyurethane elastic lining of the resulting prosthesis are shown in the table.

Claims (1)

A method of manufacturing removable dentures containing a rigid base and an elastic lining, including the formation of an elastic lining by making a wax model by imprinting the prosthetic part of the oral cavity, molding the wax model in a special cuvette using a molding mass, removing wax, forming gate runs and filling the composition for education an elastic lining comprising a polyisocyanate, oligopolyatomic alcohol and a catalyst, and holding the cuvette to form a lining, characterized in that for pouring into a cuvette, a composition is used containing, as a polyisocyanate, an oligoalkylene polyisocyanate with a content of NCO groups of 5.6 - 6.8% in the following ratio of components, parts by weight: Oligoalkylene polyisocyanate 100.0 Oligopolyatomic alcohol 14.8-25.8 Catalyst 0.04-0.1 and after the formation of the elastic lining, a rigid basis is formed.

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