RU63214U1 - DENTAL BIOMETRIC PATTERN - Google Patents

Abstract

Maxillofacial biometric pattern refers to dentistry, in particular, to dental measuring devices and can be used to measure the dentofacial system in a spatial coordinate system to recreate the anatomical shape of the dentition during the placement of artificial teeth. The proposed pattern in comparison with well-known counterparts creates ease of use when applying and fixing the patterns on gypsum models, turtles and individual jaws with biometric measurements. The dentofacial biometric pattern contains a spherically convex plate 1 of transparent organic glass, on which the Cartesian coordinate system with transversal 2 and sagittal 3 coordinate axes is marked. The spherically convex plate 1 is made in a parabolic shape corresponding to the geometric similarity of the dental arches, moreover, on the spherically convex plate 1, an additional marking 4 is made corresponding to the geometric arrangement of the dental arches according to the most common sizes.

Description

The utility model relates to dentistry, in particular to dental measuring devices and can be used to measure the dentofacial system in a spatial coordinate system to recreate the anatomical shape of the dentition during the placement of artificial teeth.

Currently, for biometric measurements of the dentofacial system, patterns are used made in the form of spherically convex plates of parabolic shape made of metal without any marking, and of organic glass with marking (see, for example, the book of the author L. Shargorodsky, “Denture technology and materials science”). "Medicine, Moscow, 1966, pp. 318-320 and the book of authors Gavrilov E.I., Oksman I.M." Orthopedic Dentistry ", Medicine, Moscow, 1968, page 350)

The closest in technical essence is a dentofacial biometric pattern containing a spherically convex plate made of transparent organic glass, on which the Cartesian coordinate system is marked (see, for example, the author’s book Gavrilov E.I., Oksman I.M. “Orthopedic dentistry”, Moscow, 1968 p. 350)

Common disadvantages of the known dentofacial biometric pattern are the inconvenience of working when applying and fixing the patterns, the complexity of the process of studying the layout of gypsum models, as well as the biometric measurements of teeth, dental arches on turtles and individual jaw preparations.

The utility model is based on the task of creating a dentofacial biometric pattern with high measurement accuracy.

The problem is solved in that in a dentofacial biometric piece containing a spherically convex plate of transparent organic glass, on which the Cartesian coordinate system with transversal and sagittal coordinate axes is marked, according to a useful model, the spherically convex plate is made of a parabolic shape corresponding to a geometric similarity

dental arches, moreover, on the spherically convex plate, additional marking is made, corresponding to the geometric arrangement of the dental arches according to the most common sizes.

In Fig.1 and Fig.2 the image of the pattern is made of a transparent convex plate with markings, respectively, in two and four sizes of dental arches, top view; figure 3 shows the proposed pattern, front view.

The dentofacial biometric pattern consists of a spherically convex plate 1 of transparent organic glass, on which the Cartesian coordinate system with transversal 2 and sagittal 3 coordinate axes is marked. The spherically convex plate is made in a parabolic shape corresponding to the geometric similarity of the dental arches, moreover, on the spherically convex plate there is an additional marking 4 corresponding to the geometric arrangement of the dental arches according to the most common sizes.

The use of the inventive patterns will consider an example of a specific implementation, in which biometric studies are carried out on gypsum models of the patient's jaws

The dentoalveolar biometric pattern is mounted on the gypsum model of the dentition so that the dentition fits into the geometric similarity of the dental arches on the marking of the spherically convex plate 1. In this case, the sagittal coordinate axis 3 must coincide with the sagittal axis of the gypsum model, and the transversal coordinate axis 2 must coincide with the line of the gypsum model passing through the tops of the tubercles of the fifth teeth of the upper jaw. If the coordinate axes of the piece and the gypsum model do not coincide, a precise marking of the gypsum model is carried out. Visually assess the structure of the dentition, deviation from the norm of the tooth, dentition beyond the markings of the dental arches on the patterns. The ratio of the sizes of the transversal coordinate axes 2 and the sagittal coordinate axes 3 on the gypsum model and, accordingly, on the spherically convex plate 1 determine the increase or decrease of dental arches in these directions.

Then, measurements are made during biometric studies in the spatial coordinate system and volumetric modeling of teeth, dental arches to the norm.

The inventive dentoalveolar biometric pattern is used in the educational process when performing educational research and practical work on biometric measurements of dentitions both on gypsum models, and on turtles and individual jaw preparations.

The inventive biometric pattern is used in laboratory work related to the design and staging of artificial teeth, in the study of the anatomical shape of the dental arches, individual teeth and dentitions.

The inventive dentofacial biometric curve makes it possible to simplify and improve the technology for preparing the curve itself from transparent and biologically inert polymethylmethacrylate (PMMA) of the Dacryl brand 2 m., As well as to carry out precise simultaneous application of the upper and lower dental arches on one curve.

The proposed pattern in comparison with well-known counterparts creates ease of use when applying and fixing the patterns on gypsum models, turtles and individual jaws with biometric measurements. The educational process is optimized when performing dental laboratory work, studying the structure and position of the teeth, and their relationship to each other. Material for the manufacture of patterns used domestic, the technology is not expensive. The proposed pattern helps to master the scientific and practical basis of the anatomy of the dentition and improve the quality of dental care.

Claims (1)

A dentofacial biometric piece containing a spherically convex plate made of transparent organic glass, on which the Cartesian coordinate system is marked, characterized in that the spherically convex plate is made parabolic in shape, corresponding to the geometric similarity of the dental arches, and additional marking is made on the spherically convex plate, corresponding to the geometric arrangement dental arches according to the most common sizes.