RU2792389C1 - Method for manufacturing an individual impression tray of the edentulous jaw - Google Patents

Abstract

FIELD: medicine; orthopedic dentistry.

SUBSTANCE: invention is intended for the manufacture of an individual impression tray within the boundaries of the neutral zone of the mucous membrane of the prosthetic bed of the edentulous jaw. On the crest of the alveolar process of the plaster model, marks are applied at a distance of 1 cm from each other using a fluid composite material. A plaster model of the edentulous jaw is scanned using a 3D scanner. A digital image of a plaster model is loaded into the virtual space of the CAD/CAM software, transverse sections are created perpendicular to the base of the edentulous jaw model through marks on the alveolar process, and contours of the transversal sections are obtained. A point is fixed on each cut corresponding to the mark on the plaster model. The points within the upper and lower boundaries of the neutral zone are determined. The points are transferred to the plaster model for each cut, then the points are connected and a contour line is obtained to model the edge of an individual impression tray.

EFFECT: method allows to increase the accuracy of determining the neutral zone which is of great importance at the stage of obtaining a functional impression in the manufacture of complete removable laminar dentures in patients with complete absence of teeth, the method is simple to perform and does not depend on the qualifications, experience and manual skills of an orthopedic dentist.

1 cl, 6 dwg, 1 ex

Description

The invention relates to medicine, in particular to orthopedic dentistry, and is intended for the manufacture of an individual impression tray within the boundaries of the neutral zone of the mucous membrane of the prosthetic bed of the edentulous jaw.

Unsatisfactory fixation of a complete removable lamellar denture subsequently leads to traumatization of the oral mucosa, multiple correction of the denture, and thus to a longer adaptation of the patient to the denture. Good fixation of the prosthesis depends on the accuracy of the functional impression, which in turn depends on the accuracy of determining the boundaries of the individual tray. In order to best fix complete removable dentures, the edges of the individual tray, with which an impression of the prosthetic bed is obtained, should be located in the neutral zone.

The neutral zone (passive movable mucosa) is the area between the movable and immobile oral mucosa. It is located between the oral mucosa covering the alveolar process and the transitional fold. This area is characterized by minimal mobility and pronounced compliance of the mucous membrane.

A known method for determining the boundaries of the neutral zone of the mucous membrane of the edentulous jaw (Konnov, V.V. Neutral zone - as the main landmark for the location of the boundaries of complete removable dentures / V.V. Konnov, D.Kh. Razakov, M.I. Klenkova // Collection of scientific works based on the results of the international scientific and practical conference (October 10, 2015) Volgograd "Main problems in modern medicine" - Nizhny Novgorod: ITsRON, 2015. - P. 184-186), which consists of the following stages: determination by palpation active-movable and immobile mucosa, marking the boundaries of the neutral zone of the mucosa with a chemical pencil, measuring the width of the neutral zone of the mucosa with a micrometer.

The disadvantage of the known method is its subjectivity, tk. marking the boundaries of the neutral zone of the mucous membrane of the edentulous jaw is based on visual examination and palpation sensations of a particular doctor who measures the width of the neutral zone. Accordingly, the accuracy of the measurements obtained will depend on the qualifications, experience and manual skills of the orthopedic dentist. Also, this method is intraoral, which significantly increases the time of clinical admission and may cause discomfort in patients.

The objective of the proposed method is to manufacture an individual spoon within the neutral zone without palpation.

The technical result of the method is the expansion of the arsenal of technical means for the manufacture of an individual impression tray within the boundaries of the neutral zone of the edentulous jaw, regardless of the qualifications, experience and manual skills of the orthopedic dentist.

The technical result is achieved by the fact that in the method of manufacturing an individual impression tray, including an anatomical impression of the edentulous jaw, making a plaster model of the edentulous jaw, modeling the tray, marks are applied on the crest of the alveolar process of the gypsum model using a fluid composite material at a distance of 1 cm from each other, scanning gypsum model of the edentulous jaw using a 3D scanner, a digital image of the gypsum model is loaded into the virtual space of the CAD / CAM software, transverse sections are created perpendicular to the base of the edentulous jaw model through marks on the alveolar process and the contours of the transversal sections are obtained, fixing the point R corresponding to each cut the mark applied by the composite on the plaster model, determine the highest point of the dome of the transitional fold A, draw a straight line L along the vestibular slope of the alveolar process, corresponding to the direction of the slope in its central part, mark point B, respectively corresponding to the point of divergence of the slope line and the line L, draw a line K perpendicular to the base through point A, lower the perpendicular BC to the line K from point B, build the bisector of the angle ACB and mark the point of its intersection with the slope of the alveolar process D, transfer the points to the plaster model for each cut, connect and get a contour line to model the edge of an individual impression tray.

The method is illustrated by drawings, where:

Fig. 1 - digital image of the edentulous jaw model (pos. 1 - transversal cut; pos. 2 - contour of the transversal cut; pos. 3 - point R corresponding to the point marked by the composite on the plaster model);

Fig. 2 - marking the contour of the transversal section of the digital image of the edentulous jaw model. (pos. 4 - point A, corresponding to the highest point of the dome of the transitional fold; pos. 5 - straight line L, corresponding to the direction of the slope in its central part; pos. 6 - point B, corresponding to the divergence of the slope line and the straight line L; pos. 7 - straight line K, drawn through point A perpendicular to the basis; pos. 8 - corresponds to the perpendicular BC to line K; pos. 9 - point D, corresponding to the intersection of the bisector of the angle ACB with the slope of the alveolar process).

Fig. 3 - the contour line of the neutral zone on the plaster model.

The method is carried out as follows.

In a patient with no teeth, an anatomical impression of the edentulous jaw is obtained and a plaster model is made. On the crest of the alveolar process of the plaster model, marks are applied at a distance of 1 cm from each other using a fluid composite material. A plaster model of the edentulous jaw is scanned using a 3D scanner and a digital image is obtained. Next, a digital image of a plaster model of the edentulous jaw is loaded into the virtual space of the CAD/CAM software. Create transversal slices (Figure 1 pos. 1) perpendicular to the basis of the model of the edentulous jaw through the marks on the alveolar process, applied with a liquid composite and receive the contours of the transversal sections (Figure 1, pos. 2). Fixed on each cut point R (Fig.1-2, pos. 3), corresponding to the mark applied by the composite on the plaster model. Determine the highest point of the dome of the transitional fold A (Fig.2, pos. 4). On the vestibular slope of the alveolar process, a straight line L is drawn, corresponding to the direction of the slope in its central part (Figure 2, pos. 5). Point B is marked (Figure 2, pos. 6), corresponding to the divergence of the slope line and the straight line L. Through point A, a straight line K is drawn perpendicular to the basis (Figure 2, pos. 7). From point B, the perpendicular BC is lowered to the straight line K (Fig.2, pos. 8). Build the bisector of the angle DIA and mark the point of its intersection with the slope of the alveolar process D (Figure 2, pos. 9). Point D is a point located within the upper and lower boundaries of the neutral zone of the mucous membrane of the prosthetic bed of the edentulous jaw. Points are transferred to the plaster model for each cut through the marks. The points obtained on the plaster model are connected with a marker and a contour line is obtained for modeling the edge of an individual impression tray (Figure 3). Next, an individual impression tray is made of plastic, the edge of which is modeled along the contour line of the neutral zone of the edentulous jaw on a plaster model. A spoon is fitted in the patient's mouth and its edging is carried out. An impression of the prosthetic bed is obtained using an individual impression tray and silicone material, using functional tests.

The proposed method improves the accuracy of determining the neutral zone, which is of great importance at the stage of obtaining a functional impression in the manufacture of complete removable lamellar dentures in patients with complete absence of teeth. This method allows you to position the edge of an individual impression tray within the upper and lower boundaries of the neutral zone of the mucous membrane of the edentulous jaw, which leads to a decrease in the clinical time required to fit an individual tray, to obtain a functional impression, and also to increase the effectiveness of treatment of patients with complete absence of teeth. The method is simple to perform and does not depend on the qualifications, experience and manual skills of an orthopedic dentist.

Clinical example.

Patient M., 72 years old, came to the clinic with complaints of missing teeth in the upper jaw. In agreement with the patient, it was decided to carry out dental orthopedic rehabilitation with a complete removable denture. Anatomical impressions were obtained from the patient and plaster models of the jaws were made. On the crest of the alveolar process of the gypsum model, marks were applied using a fluid composite material at a distance of 1 cm from each other.

Next, a plaster model of the edentulous jaw was scanned using a laboratory 3D scanner KaVo ARCTICA AutoScan and a digital image of the plaster model of the upper jaw was obtained. Next, a digital image of a plaster model of the edentulous jaw was loaded into the virtual space of the CAD/CAM software. In the DentalCAD 2.2 Valletta software, transversal sections were created perpendicular to the base of the edentulous jaw model through marks on the alveolar process applied with a liquid composite and the contours of the transversal sections were obtained. Point R was fixed on each cut, corresponding to the mark applied by the composite on the plaster model. The highest point of the dome of the transitional fold (A) was determined. A straight line (L) was drawn along the vestibular slope of the alveolar process, corresponding to the direction of the slope in its central part. A point (B) was marked, corresponding to the divergence of the slope line and the line drawn L. A straight line (K) perpendicular to the basis was drawn through point A. From point B, the perpendicular BC was lowered to the straight line K. The bisector of the angle ACB was built and the point of its intersection with the slope of the alveolar process was marked and a point (D) was obtained, which is a point located within the upper and lower boundaries of the neutral zone of the mucous membrane of the prosthetic bed of the edentulous jaw. The distance from point R to the corresponding mark applied by the composite on the plaster model to point D was measured. The points of the neutral zone were transferred to the plaster model for each cut through the marks. The points obtained on the plaster model were connected with a marker and a contour line of the neutral zone of the mucous membrane of the prosthetic bed of the edentulous jaw was obtained. Further, an individual impression tray was modeled from transparent plastic, the edge of which was placed on the contour line of the neutral zone of the edentulous jaw (Figure 4). To verify the correctness of determining the topography of the neutral zone by the claimed method, the upper and lower boundaries of the neutral zone were determined by palpation and marked with a marker its boundaries in the oral cavity on the right side of the edentulous upper jaw (Figure 5). Imposed impression spoon on the edentulous upper jaw, the edges of which were within the upper and lower boundaries, determined by palpation, the neutral zone of the mucous membrane of the prosthetic bed of the edentulous jaw (Figure 6). A spoon was fitted in the patient's mouth and its edging was carried out. An impression of the prosthetic bed was obtained using an individual impression tray and silicone material, using functional tests. The fabricated complete removable denture, using the proposed method, fully met the patient's expectations, was well fixed to the prosthetic bed, and required minimal correction.

Claims (1)

A method for manufacturing an individual impression tray, including an anatomical impression of an edentulous jaw, making a plaster model of an edentulous jaw, modeling a tray, characterized in that marks are applied on the crest of the alveolar process of the plaster model using a fluid composite material at a distance of 1 cm from each other, the plaster model of the edentulous is scanned jaws using a 3D scanner, upload a digital image of a plaster model into the virtual space of the CAD / CAM software, create transverse sections perpendicular to the base of the model of the edentulous jaw through marks on the alveolar process and obtain the contours of transversal sections, fixing on each section the point R corresponding to the mark, applied by the composite on a plaster model, determine the highest point of the dome of the transitional fold A, draw a straight line L along the vestibular slope of the alveolar process, corresponding to the direction of the slope in its central part, mark point B, corresponding to the place of divergence line of the slope and the line drawn L, draw a line K perpendicular to the base through point A, lower the perpendicular BC to line K from point B, build the bisector of the angle ACB and mark the point of its intersection with the slope of the alveolar process D, transfer the points to the plaster model for each cut, connect and get a contour line for modeling the edge of an individual impression tray.

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