RU2509543C1 - Method for measuring on stone models - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to orthopaedic dentistry, and is applicable when verifying a prosthetic teeth setup in relation to skull and face markers at any stage of prosthetic construction simulation, including the stage of wax model replacement by a prosthetic material. The plaster model is pre-plastered into an articulator by specific anatomical landmarks. The model taken from the articulator is placed with its base formed in the articulator on a horizontal top of a table. A digital camera is used to photograph a lower jaw model from the right and left. An upper jaw model is photographed from the right, left and from the front. The digital images are inserted onto the computer. The measurements are taken with using Photoshop CS software wherein the denture parameters are fixed using a ruler instrument.

EFFECT: method enables providing higher reliability and accuracy of the prosthetic teeth setup, measuring the denture geometry on the jaw model pre-plastered into the articulator of any of the known systems according to any of the known methods of mounts due to a possibility to measure the denture geometry considering a natural masticatory jaw position functional for the given patient.

2 cl, 8 dwg

Description

The invention relates to medicine, specifically to orthopedic dentistry, and can be used to verify the correct placement of artificial teeth in prostheses relative to landmarks on the skull and face of a person at any stage of modeling the design of the prosthesis, including the stage of replacing the wax model with the material of the prosthesis.

There is a known mechanical method of measurement on gypsum models of the jaws, according to which specific measurements are manually performed by means of a mechanical device, which makes it possible to measure the angle of inclination of the supporting teeth, the configuration of the palate, the angle of inclination of the alveolar ridge (USSR, auth. Certificate. No. 1364332, А61С 19/04, 01/07/08.).

Closest to the proposed one is a mechanical method of measurements on gypsum models of the jaws, according to which specific measurements are manually performed by means of a mechanical device that allows you to measure the distance between the teeth of the same name, the length of the front segment of the arch and lower jaw, the shape of the front of the arch, and the depth of the sky, depending on the distance to the incisors, the angle of inclination of the palatine surfaces of the teeth with respect to the occlusal plane (USSR, author certificate. No. 1026798, А61С 19/04, 07.07.83.)

The disadvantage of the known known mechanical methods of measurement on gypsum models of the jaws is primarily that they are difficult to perform and require a certain skill to perform. The same shortcomings introduce a tangible error in the measurement results due to the presence of a subjective factor, and reduce their reliability. In addition, in the known methods, all measurements are performed relative to the horizontal surface of the table to fix the gypsum model of the jaw, and the gypsum model is made according to the impression from the patient's jaw and does not carry information about the natural position of the patient's jaws during chewing movements. It also reduces both the accuracy and reliability of the measurement results. The error in the measurement results is made by the devices themselves that implement these methods, which is explained by the complexity of the kinematics used in them. As a result, the reliability and accuracy of the measurement results are reduced.

The proposed method for measuring on gypsum models of the jaws solves the problem of creating an appropriate method, the implementation of which allows to achieve a technical result, which consists in increasing the reliability and accuracy of the measurement results, due to the possibility of measuring the geometric parameters of the dentition taking into account the natural functional position of the jaw for this patient during chewing movements .

In addition, the proposed method of measurement on gypsum models of the jaws allows you to achieve an additional technical result, which consists in the possibility of measuring the geometric parameters of the dentition on the model of the jaw, previously gypsum in any of the known systems using any of the known gypsum methods: on the Frankfurt, Camper, and eye axial plane .

The essence of the invention lies in the fact that in the claimed method of measuring on gypsum models of the jaws, including the manufacture of a gypsum model of the investigated jaw, it is new that the gypsum model of the studied jaw is pre-gypsum in the articulator, the gypsum model is removed from the articulator with the base formed in the articulator on a height-changing table with a horizontal tabletop, which serves as the articulator frame, a fixed digital camera is installed at a distance from the table in such a way The reason is that the optical axis of his lens is horizontal, and the focus point in the viewfinder coincides with the first molar on one side of the studied model of the jaw, which in the initial state is set with cutters in the direction of the camera’s lens, then the jaw model is rotated on the table to the desired position and photographs moreover, photographing the lower jaw model is performed on the right and left, and photographing the upper jaw model is performed on the right, left and front, respectively, turning the plaster model on the table, the radiated digital image is introduced into the computer and the geometrical parameters of the dentition are measured using a computer program for processing photographs, namely, the angle of inclination of the occlusal plane, the angle of inclination of the "occlusal table" of the lower molars, the slopes of the chewing tubercles of the molars are measured on the lateral photographs of the lower jaw model , the severity of the sagittal compensation curve, on the front photographs of the model of the upper jaw fix the level of vertical position and the slope of the symmetry cing teeth right and left side, the slope mezhreztsovoy line, and on the upper jaw side images fixed severity sagittal compensation curve. In this case, measurements are performed using the computer program Photoshop CS using the ruler tool.

The technical result is achieved as follows.

The essential features of the claims: "A method of measuring on gypsum models of the jaws, including the manufacture of a gypsum model of the investigated jaw, ..." are an integral part of the claimed method and, together with the remaining essential features, ensure the implementation of the claimed invention and, therefore, achieve the claimed technical result.

For a qualitative elimination of a dental problem, it is necessary to take into account the individual characteristics of the patient's jaw, its natural position, which depends, in particular, on the shape of a person’s teeth. The manufacture of long-length orthopedic constructions, total restorations, the analysis of pathological and abnormal bites are associated with the need to evaluate the vertical and horizontal ratios of the jaws. This is especially important in the manufacture of complex orthopedic structures, when a person’s bite is completely reconstructed. Identify and take into account the individual characteristics of the jaw of a person allows the articulator.

The articulator is an apparatus used in dentistry and allows you to reproduce all kinds of movements of the lower jaw: opening, closing, movements in the front, back and side directions.

The use of the articulator in the manufacture of dentures ensures the correct placement of artificial teeth.

In the claimed method for measurements, a gypsum model of the studied jaw of the patient is made, the studied geometric dimensions of the dentition of which are the standard for the manufacture of an orthopedic design. In this case, the gypsum model of the studied jaw is preliminarily gypsum into the articulator and the further operations of the method are performed on the model taken out of the articulator, which is placed on the table with a horizontal tabletop, which actually acts as the frame of the articulator, with the base formed in the articulator. In this position, the base model is mounted on a horizontal tabletop in the same way as it would stand in the articulator, depending on the type of gypsum plane of the model in the articulator - these are predetermined planes: nasal (Campinger), eye-eye (Frankfurt) or eye-axial.

Thus, in the inventive method, when performing measurements, all angular parameters of the dentition relative to the gypsum plane of the model are stored, i.e., the measurement results contain information about the natural position of the jaw of the patient, which increases the reliability of the measurement results.

In the claimed method, photographs taken with a digital camera are used as the initial information for measurements. During measurements, the digital camera is mounted at a distance from the table motionless, so that the optical axis of its lens is horizontal, and the focus point in the viewfinder coincides with the first molar on one side of the studied model of the jaw, which in the initial state is put with cutters towards the camera lens. In this case, the dentition of the examined jaw is always in the focus of the camera lens. In addition, the optical axis of the camera lens is always parallel to the horizontal table top, which serves as the articulator frame. As a result, when taking a photograph, all angles fixed by the articulator relative to the selected gypsum plane of the investigated model of the jaw are saved. Together, the foregoing provides an increase in the reliability and accuracy of the measurement results of the geometric parameters of the jaw. In addition, from the foregoing, it follows that the claimed method of measurement on gypsum models allows you to measure the geometrical parameters of the dentition on a model gypsum-plated into the articulator of any system according to any method of gypsum (on the Frankfurt, Campaign, eye-axial plane) and control the geometric parameters of modeling according to any gnatological concept .

To take pictures, the jaw model is rotated on the table to the desired position. The lower jaw model is photographed on the right and left, and the upper jaw model is photographed on the right, left and front, respectively turning the plaster model on the table on the horizontal table top. As a result, when all photography angles are taken, all angles fixed by the articulator relative to the selected gypsum plane of the investigated model of the jaw are preserved, which ensures the reliability of subsequent measurements performed on the photograph.

Using a digital camera for taking photographs allows you to use a computer for measurements, which increases the reliability and accuracy of the measurement results.

The resulting digital image is entered into a computer and the geometric parameters of the dentition are measured using a computer program for processing photographs. The measurements are performed on the computer screen in the photographs using the Photoshop CS computer program, in which the dentition parameters are measured using the ruler tool: on the side photographs of the lower jaw model, the angle of inclination of the occlusal plane, the angle of inclination of the “occlusal table” of the lower molars, slope angles of the chewing tubercles of molars, the severity of the sagittal compensation curve, in the front photographs of the model of the upper jaw record the level of vertical the position and inclination of the symmetrical teeth of the right and left sides, the inclination of the interdental line, and the severity of the sagittal compensation curve is recorded on the lateral images of the upper jaw.

The claimed method of measurement on gypsum models of the jaws is simple to implement, because ultimately it comes down to performing geometric constructions on photographs of the gypsum model of the jaw using a computer program.

A patent search revealed a method for the diagnosis of dental anomalies, in which photographic images of the dentition made by a digital camera are used for diagnosis in the central occlusion position in front, on the right and left sides, as well as photographs of the upper and lower rows in the horizontal plane with an open mouth (RF Patent No. 2147826, A61 B1 / 24, 04/27/2000). Thus, as a result of a patent search, signs have been identified (using photographs of dentitions made by a digital camera) that match the distinguishing features of the claimed invention. However, the analysis of the essence of the revealed method showed that: in the known method, the essential features of the claims, which consist in the use of a digital camera and photographs taken of the dentition, affect the achievement of a technical result, which consists in increasing the accuracy of diagnosis of dentofacial anomalies by eliminating the error caused by deformation of casts of the dentition and alveolar parts while saving time and materials.

In the claimed method of measurement on plaster models of the jaws using a digital camera, photographs of dentitions are performed on a plaster model of the jaw. At the same time, the essential features of the claims, which consist in the use of a digital camera and photographs taken of the dentition, affect the achievement of a technical result, which consists in increasing the reliability and accuracy of the measurement results, due to the possibility of measuring the geometric parameters of the dentition taking into account the natural functional for this patient the position of the jaw during chewing movements, as well as to increase the reliability and simplification. In addition, the proposed method of measurement on gypsum models of the jaws allows you to achieve an additional technical result, which consists in the possibility of measuring the geometric parameters of the dentition on the model of the jaw, previously gypsum in any of the known systems using any of the known gypsum methods: on the Frankfurt, Camper, and eye axial plane .

From the foregoing it follows that in the course of a patent search, solutions have been identified that have features that match the distinguishing features of the claimed invention, but the popularity of the influence of these distinctive features on the technical result indicated by the applicant is not confirmed.

Thus, from the foregoing, it follows that the claimed proposed method of measuring on gypsum models of the jaws during the implementation ensures the achievement of a technical result, which consists in increasing the reliability and accuracy of the measurement results, due to the possibility of measuring the geometric parameters of the dentition taking into account the natural functional position of the jaw in a given patient chewing time.

In addition, the proposed method of measurement on gypsum models of the jaws during implementation provides an additional technical result, which consists in the possibility of measuring the geometric parameters of the dentition on the model of the jaw, previously gypsum in any of the known systems using any of the known gypsum methods (Frankfurt, Camper, eye-axial plane).

Figure 1 shows a diagram of a photograph of a plaster model of the jaw; figure 2 is a photograph explaining the measurement of the angle of inclination of the occlusal plane, performed on a photograph of a plaster model of the lower jaw; figure 3 is a photograph explaining the measurement of the angle of inclination of the occlusal plane of the molar, performed on a photograph of a plaster model of the lower jaw; figure 4 is a photograph explaining the measurement of the angle of inclination of the slopes of the tubercles of the molars, performed on a photograph of a plaster model of the lower jaw; 5 is a photograph explaining a visual assessment in a frontal image of a gypsum model of the upper jaw, the correspondence of the position of the front teeth to the vertical axis and the symmetry of the position of the corresponding teeth of the right and left sides; figure 6 is the same on a wax model placed on a plaster model of the upper jaw; Fig.7 is a photograph explaining a visual assessment of the severity of the sagittal compensation curve on gypsum models of the upper and lower jaws; on Fig - the same on wax models placed on plaster models of the upper and lower jaws.

The scheme of the photograph of the gypsum model contains a digital camera 1 mounted on a tripod 2, and changing the height of the table 3 with a horizontal tabletop 4, which performs the function of the articulator frame. The camera 1 and the table 3 are mounted on a common horizontal surface 5. On the countertop 4 put the base, formed in the articulator, removed from the articulator gypsum model 6 of the jaw. Behind the gypsum model perpendicular to the optical axis of the lens and vertically located background 7 in the form of a scale grid of horizontal and vertical lines. The camera is fixed. The optical axis 8 of its lens is horizontal, and the focus point in the viewfinder coincides with the first molar on one side of the jaw model 6, which in the initial state is set with cutters in the direction of the camera lens 1.

The claimed method of measurement on gypsum models of the jaws is as follows. In the usual way, a gypsum model of the investigated jaw is made. The gypsum model of the investigated jaw is preliminarily gypsum in the articulator. The gypsum model removed from the articulator is placed on the height-changing table with a horizontal tabletop, which serves as the frame of the articulator, on the height-changing table. A digital camera is fixedly installed at a distance from the table, so that the optical axis of its lens is horizontal, and the focus point in the viewfinder coincides with the first molar on one side of the studied model of the jaw, which in the initial state is set with cutters towards the camera lens. Then the jaw model is rotated on the table to the desired position and photographing is performed. The lower jaw model is photographed on the right and left, and the upper jaw model is photographed on the right, left and front, respectively turning the gypsum model on the table. The resulting digital image is entered into a computer and the geometric parameters of the dentition are measured using a computer program for processing photographs. On the lateral photographs of the model of the lower jaw measure the angle of inclination of the occlusal plane, the angle of inclination of the "occlusal table" of the lower molars, the angles of the slopes of the chewing tubercles of the molars, the severity of the sagittal compensation curve. On the front photographs of the model of the upper jaw, the level of the vertical position and the slope of the symmetrical teeth of the right and left sides, the slope of the interdental line are recorded, and the severity of the sagittal compensation curve is recorded on the side pictures of the upper jaw. Measurements are performed using the Photoshop CS computer program using the ruler tool.

For convenience, the camera 1 and table 3 are placed on the desktop 5, which is exposed and fixed horizontal position of the countertop. In this case, the horizontal position of the tabletop 4 of the table 3 is guaranteed, on which the investigated model of the jaw 6 is placed, and the optical axis 8 of the camera 1. In this case, the camera 1 is mounted on a low portable tripod 2. The tripod is mounted at a distance of 1.5-2.5 meters from table 3 - by analogy with the distance between the tube and the film when conducting tele-roentgenography. Installing a tripod 2 of the camera 1 on a horizontally fixed tabletop 5 facilitates and allows you to accurately set the horizontal position of the lens of the camera 1 by adjusting its position on a tripod 2, which has a ball joint in the place where the camera 1 is attached. The position of the object in height relative to the camera lens is regulated by changing the height of the table.

The relative position of the table 3 and the camera 1 is considered correct if only the side edge of the tabletop 4 of table 3 was visible in the viewfinder and the upper and lower planes of the tabletop 4 are not visible.

The fixed installation height of the camera 1 is chosen so that the focus point in the viewfinder coincides with the first molar in the model of the upper or lower jaw, which at the initial moment of research is turned by incisors towards the lens.

Before each shot of the new position of model 4, the lens is focused on the first molar. As experience has shown, in this case, a sharp image of the entire investigated part of the object is provided.

Behind the model 4 is perpendicular to the optical axis 8 of the lens and vertically located background 7, for example, paper, with a rectangular scale grid printed on it (mm) of horizontal and vertical lines. A large-scale background grid is used to calibrate the image, which makes it possible to perform linear measurements of objects in the image using the ruler software tool.

The claimed method used a camera with a digital SLR camera with a telephoto lens with an equivalent focal length of 100-300 mm, a tripod with an ampoule level that controls the position of the camera lens in a horizontal plane. The relative aperture was set in the range from 10 to 20, which ensured the sharpness of the image of all sections of the model.

Photography is performed using a flash, one or two, to ensure uniform illumination of the model.

To measure the angle of inclination of the occlusal plane (figure 2) using the tool "ruler" above the top of the second molar of the lower jaw draw a horizontal line 9 corresponding to the Frankfurt gypsum plane. Then draw a second line through the tops of the incisors and the second molar until it intersects with the line of the gypsum plane. The angle of inclination of the occlusal plane is calculated programmatically. In an exemplary embodiment, the inclination angle of the occlusal plane was 9.6 °.

The measurement of the angle of inclination of the occlusal plane of the molar is also performed on a photograph of a plaster model of the lower jaw (figure 3). Using the ruler tool, a horizontal line 9 corresponding to the Frankfurt gypsum plane is drawn above the top of the second molar of the lower jaw. Then, a second line is drawn along the tubercles of the second molar until it intersects with the line of the gypsum plane. In the example of the execution of the inclination angle of the occlusal plane of the molar was 22 °.

The measurement of the angle of inclination of the slopes of the tubercles of the molars is performed on a photograph of a plaster model of the lower jaw (figure 4). Using the ruler tool, draw a horizontal line 9 corresponding to the Frankfurt gypsum plane. Then draw lines along the slopes of the molar tubercles (in the example, the first molar) to the intersection with the horizontal line of the gypsum plane. In the exemplary embodiment, the inclination angle of the distal slopes of the tubercles of the first molar was 17.7 ° and 18.8 °.

For a visual assessment in the frontal image of the gypsum model of the upper jaw, the levels of the vertical position and the inclination of the symmetrical teeth of the right and left sides, as well as the inclination of the interdental line (Fig. 5), a vertical line is drawn between the middle incisors with the ruler tool. Then, in the maximum proximity of the upper edges of the incisors, a horizontal line is drawn. In addition, auxiliary horizontal lines are drawn along the roots of the teeth and along the cutting and chewing surfaces. In the exemplary embodiment, the asymmetry of the position of the corresponding teeth of the right and left sides is clearly expressed, and there is also a deviation of the front teeth from the vertical axis.

In Fig. 6, in a frontal shot of the wax model of the upper jaw (the part of the dentition made of gypsum is shaded) placed on the gypsum model, constructions similar to Fig. 5 are made. Visual analysis of the photograph shows the elimination of dentition deficiencies identified during the analysis of the gypsum model.

In Fig. 7, to perform a visual assessment of the severity of the sagittal compensation curve on the upper and lower jaws along the tubercles of the chewing teeth, a line connecting them is drawn. The separation of the lower and upper jaws in the area of chewing teeth is clearly visible.

In Fig. 8, a part of the dentition made of wax is shaded. An analysis of a photograph of wax models of the upper and lower jaws placed on the gypsum model of the jaw (Fig. 8) shows the elimination of this drawback.

Claims (2)

1. The method of measurement on gypsum models of the jaws, including the manufacture of a gypsum model of the investigated jaw, characterized in that the gypsum model of the studied jaw is preliminarily gypsum in the articulator, the gypsum model is removed from the articulator with the base formed in the articulator on a height-changing table with a horizontal tabletop, which performs the function of the articulator frame, behind the gypsum model perpendicular to the optical axis of the lens and vertically arrange the background in the form of a scale grid of horizontal of vertical lines, a digital camera is fixedly installed at a distance from the table, so that the optical axis of its lens is horizontal, and the focus point in the viewfinder coincides with the first molar on one side of the investigated model of the jaw, which in the initial state is put with cutters towards the camera lens , then the jaw model is rotated on the table to the required position and photographing is performed, moreover, photographing the lower jaw model is performed on the right and left, and photographing the upper mode whether the jaws are performed on the right, left and front, respectively, turning the gypsum model on the table, using a digital camera whose lens has a focal length of 100 to 300 mm, and photographing is performed at a relative aperture of 10 to 20, then the digital the image is entered into a computer and the geometric parameters of the dentition are measured using a computer program for processing photographs, namely, the angle of inclination is measured on the lateral photographs of the model of the lower jaw the occlusal plane, the angle of inclination of the "occlusal table" of the lower molars, the angles of the slopes of the chewing tubercles of the molars, the severity of the sagittal compensation curve, in the front photographs of the model of the upper jaw record the level of the vertical position and the inclination of the symmetrical teeth of the right and left sides, the inclination of the incisor line, and on the side images of the upper jaw record the severity of the sagittal compensation curve. 2. The method according to claim 1, characterized in that the measurements are performed using the computer program Photoshop CS using the tool "ruler".

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