RU172668U1 - Upper jaw post-resection prosthesis - Google Patents

Abstract

Usage: medicine, orthopedic and surgical dentistry and can be used for the orthopedic stage of treatment after resection of the upper jaw in the presence of teeth or their partial absence on the healthy half of the upper jaw. The essence of the utility model: a post-resection prosthetic obturator for the upper jaw is inextricably interconnected the basis facing the prosthetic bed, the obturating part, the supporting and retaining clasps and artificial teeth. At the same time, the obstructing part of the design of the post-resection prosthesis-obturator for the upper jaw is a monolithic bowl with a recess facing the defect. The post-resection prosthetic obturator for the upper jaw is made of Vertex ThermoSens polyamide structural material (Vertex-Dental BV, Netherlands; ISO-Certificate 9001: 2008) filled with nanostructured titanium dioxide in powder form in an amount up to 1 wt.% Technical result: increase functional efficiency of the prosthetic obturator due to the chemical homogeneity of the structural material, the absence of residual monomer, improved strength characteristics, structural weight reduction and the reduction in the number of inflammatory leoperatsionnyh oslozhneniy.1 yl.

Description

The utility model relates to medicine, namely to dentistry, and can be used for the orthopedic stage of treatment of patients in the postoperative period after resection of a part of the upper jaw due to neoplasm in the presence or partial absence of teeth on a healthy half of the jaw.

The closest technical solution is a prosthesis-obturator of the upper jaw (RF patent No. 2281059, published 2006.08.10), which consists of a combined basis with a volumetric obturator and artificial teeth. At the same time, part of the base facing the prosthetic bed with a flaw relief, including a hollow volumetric obturator and supporting and holding devices, is made of cast-in titanium nickelide, and the part replacing the alveolar bone is made of acrylic plastic.

This design of the prosthesis-obturator of the upper jaw has the following disadvantages: structural (chemical) heterogeneity of structural materials made of an alloy of metal and acrylic plastic, which can lead to breakage of the prosthesis at the junction of dissimilar materials when used under conditions of increased functional load; the possibility of the formation of a microbial biofilm on the surface of the prosthesis, contributing to the development of postoperative inflammatory complications; in the plastic basis of the prosthesis after the polymerization stage, 3-5% of the residual monomer, which is a protoplasmic poison and can cause allergic reactions of the oral mucosa, is stored; the technological complexity of performing a hollow obturator from a metal alloy with the inability to completely remove the refractory mass from the cavity of the obturator, which leads to a heavier prosthesis.

The technical result of the proposed solution as a utility model is to increase the functional efficiency of the obturator prosthesis due to the chemical homogeneity of the structural material, the absence of residual monomer, improved strength characteristics, structural weight reduction and the reduction in the number of inflammatory postoperative complications.

These tasks are achieved due to the fact that a post-resection prosthesis-obturator for the upper jaw is proposed, consisting of a base facing the prosthetic bed, including the obturating part, artificial teeth and supporting and holding devices in the form of clasps. According to a new technical solution, the design of the post-resection prosthetic obturator for the upper jaw is made of polyamide structural material Vertex ThermoSens (Vertex-Dental B.V., Netherlands; ISO Certificate 9001, 2008) filled with nanostructured titanium dioxide in an amount of up to 1 wt. %, while the obturating part is made in the form of a monolithic bowl.

A utility model is depicted in the drawing, where in FIG. 1 shows a general view of a post-resection prosthesis-obturator for the upper jaw.

The post-resection prosthesis-obturator for the upper jaw has a base (1) with an obturating part (2), motionlessly connected to supporting-retaining elements in the form of clasps (3) from 1 to 3 depending on the clinical situation and artificial teeth (4 ) The obturating part is made in the form of a monolithic bowl (2) with a recess (5) facing the area of the postoperative defect of the upper jaw. In this case, the supporting and retaining clasps (3) are fixed on the natural teeth (6) of the healthy half of the jaw (7). The post-resection prosthetic obturator for the upper jaw is made of Vertex ThermoSens polyamide structural material (Vertex-Dental B.V., Netherlands), which contains nanostructured titanium dioxide in powder form, in an amount of up to 1 wt.%.

Vertex ThermoSens polyamide structural material (Vertex-Dental B.V., The Netherlands) is currently used for the manufacture of partial and complete dentures. This material has not been previously used for the manufacture of prosthetic obturators.

The proposed post-resection prosthesis-obturator for the upper jaw is made by thermopressing on lost-wax models from standard blanks in the form of Vertex ThermoSens granules (Vertex-Dental B.V., Netherlands), the selected color. Before the stage of thermal pressing, nanostructured titanium dioxide in the form of a powder in the amount of up to 1 wt.% Is introduced to the granules of the material to improve the strength characteristics.

The design of the post-resection prosthesis-obturator for the upper jaw is made of Vertex ThermoSens polyamide thermoplastic (Vertex-Dental BV, Netherlands), which eliminates the presence of chemically dissimilar structural materials; the absence of a monomer does not adversely affect the patient’s body at the local and general level; the introduction of nanostructured titanium dioxide in minimal amounts as reinforcement improves the strength characteristics of the base material (Lukyanov S.I., Bandura A.V., Evarestov R.A. Temperature dependence of the Young's modulus of nanotubes based on titanium dioxide TiO ₂ : Molecular-mechanical modeling. Solid State Physics, 2015, v. 57, issue 12, pp. 2391-2399), which increases the functional effectiveness of the proposed design. In addition, nanostructured titanium dioxide has a significant negative effect on the physiology of biofilms that inevitably form on the surfaces of complex jaw prostheses, thereby reducing the development of possible inflammatory postoperative complications (Shulyatnikova O.A., Porozova S.E., Korobov V.P., Khanov AM, Rogozhnikov G.I., Lemkina L.M., Gurov A.A. Inhibition of the formation of a microbial film during nanostructuring of the surface of a structural material. Ural Medical Journal, No. 7 (140), 2016, p. 20-24). The absence of metal parts in the design of the prosthesis-obturator allows to achieve aesthetics and psychological satisfaction in the process of social adaptation of the patient; if necessary, does not interfere with radiation therapy in patients with malignant neoplasms of the maxillofacial region. The specific gravity of thermoplastics is less (1.04 g / cm ³ ) than metal alloys (from 7 g / cm ³ or more) and acrylic plastics (1.20 g / cm ³ ), which reduces the load on the teeth of a healthy half of the jaw and lightens the weight of the prosthesis design. The presence of the obturating part of the cup-shaped shape contributes to reliable obturation of the orogenic nasal system.

Post-resection prosthesis-obturator for the upper jaw is made as follows.

Before surgery, the patient receives impressions from both jaws, register a bite. Based on the prints made models. In a diagnostic model of the upper jaw, the surgeon outlines the alleged boundaries of the resection of the upper jaw. The dental technician conducts the parallelometry stage of the upper jaw model and, in accordance with the bite registration data, fixes the models to the articulator / occluder. From the model of the upper jaw, gypsum is cut along the borders of the resection to the volume to the base of the alveolar process, from the vestibular side of the model, a depression is made in the gypsum in the vertical direction by 1.0-1.5 cm and a roller-shaped recess along the edge is 1.5-2 wide and deep, 0 mm in the anteroposterior direction for the formation of soft tissues in the postoperative period. The next stage is the marking of supporting and retaining clasps and modeling of the wax pattern of the jaw prosthesis design with the setting of artificial teeth, taking into account anthropometric indicators. Replace the wax on the thermoplastic according to the technology in accordance with the manufacturer's instructions. In this case, add up to 1 wt.% Nanostructured titanium dioxide directly to the polyamide granules for their uniform distribution in the mass of the thermoplastic. The made uncoupling post-resection prosthesis for the upper jaw with supporting-retaining clasps and artificial teeth is machined. 20-30 days after resection, an impression is made from the upper jaw. A model is cast on the imprint of the upper jaw, on which the obturating part with a cup-shaped recess is modeled from the base wax. Replace the wax on the thermoplastic according to the technology in accordance with the manufacturer's instructions, and perform mechanical processing of the prosthesis-obturator for the upper jaw.

A post-resection prosthetic obturator is used as follows.

Immediately after the operation of resection of the upper jaw, a manufactured sterile prosthesis without an obturating part is applied to the postoperative brine (2), the main function of which at this stage will be the formation of soft tissues of the maxillofacial region, fixation of dressings and drugs, prevention of inflammatory postoperative complications, replenishment aesthetic deficiency and functions of chewing, speech, swallowing. The prosthesis is fixed at the expense of supporting-retaining clasps (3) placed on the teeth (6) of the healthy half of the jaw (7). 20-30 days after the operation, when the epithelization of the mucous membrane is completed, the obstructing part (2) is added to the prosthesis as described above. The prosthetic obturator is placed on the upper jaw, fixed on the abutment teeth (6) with support-holding clasps (3). The patient is given recommendations on hygienic care of the structure and the appointment for correction.

The use of the proposed design of the post-resection prosthesis-obturator for the upper jaw as compared with the prototype increases the period of functional efficiency due to the manufacture of lightweight parts of the prosthesis design from one structural material and the introduction of a minimal amount of nanostructured titanium dioxide in the form of a powder, which reduces the possibility of inflammatory complications after implantation operations and acts as a reinforcing agent of the basis of the complex-maxillary prote behind. A post-resection prosthetic obturator can be used in any dental office, ward and clinic.

Claims (1)

Post-resection prosthesis-obturator for the upper jaw, consisting of a permanently interconnected base facing the prosthetic bed, supporting and holding clasps, artificial teeth and an obturating part made in the form of a monolithic bowl with a recess facing the defect, characterized in that the device made of polyamide structural material into which nanostructured titanium dioxide is introduced in the form of a powder in an amount up to 1 wt.%.

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