RU220029U1 - PHANTOM MODEL FOR WORKING MANUAL SKILLS BY A DENTIST - Google Patents

Abstract

The utility model relates to medicine, namely to dentistry. The model is necessary for mastering the manual skills used in dental practice. Includes base, body and tooth models. All components are 3D printed. The base that holds the body with teeth in the articulator is a flat polygonal base with a recess and inwardly inclined walls for fixing the body in it, as well as a groove in the front part for holding it in the articulator. The case, which serves to hold the models of teeth, is made of soft photopolymer resin that imitates gum tissue; in each dental alveolus of the body there is a cavity that imitates the course of the roots of the teeth, as well as a rounded belt in the area where the gums come into contact with the neck of the tooth. The tooth model is made of photopolymer resin that mimics the natural tissues of the tooth. On the neck of the tooth model there is a groove for better fixation in the dental alveolus. Root canals are modeled inside the tooth model, ending with holes imitating the anatomical apex of the root canal. 6 ill.

Description

The utility model relates to medicine, namely to dentistry. The model is necessary for mastering the manual skills used in dental practice.

A dentist in practice is faced with a large variability of pathologies. Students need to practice their skills on the most approximate phantoms, while modern simulators of the budget segment are often of poor quality and do not take into account all the existing features of the structure of the oral cavity.

A well-known dental simulator for mastering the skills of working with a dental mirror, which allows you to master and practice practical manual skills of working with a dental mirror used in the practice of a dentist when visualizing teeth, dentitions, segments of the jaws and other parts of the oral cavity of a dental patient in various dental conditions. manipulations. A dental simulator for mastering the skills of working with a dental mirror is represented by a product made of transparent polymer plastic in the form of a U-shaped equal-shelf profile [1]. This simulator does not allow you to practice skills on the upper and lower jaws at the same time, which is extremely important for students.

Known dental model, in which you can firmly fix the teeth to the main model, as well as adjust the length and change the configuration of the teeth. This dental model consists of a base, body, tooth models with a crown and a root. The fastening of the teeth to the body occurs due to screw connections, which are attached to the main body of the model. The screws have a shaft and a head and detachably connect the teeth to the model body, which has threaded holes [2]. The disadvantage of this simulator is the screw connection of the teeth, since there is no anatomical accuracy of the roots and root canals of the teeth on the molars and premolars, which is very important for students. This device was taken by us as a prototype.

The purpose of the utility model is to create a phantom model for practicing manual skills by a dentist, which allows practicing skills close to real conditions.

The technical result of the claimed utility model is the imitation of the structure and properties of organs and tissues of the body, including in the aspect of various pathologies, as well as the possibility of paired use of the model in a dental articulator.

The goal and result are achieved through the following features. All components are 3D printed. The model has a base that holds the housing with the tooth models in the articulator. The base is a flat polygonal base with a recess and inwardly inclined walls for fixing the body in it, as well as a groove in the front part for additional retention in the articulator. The case, which serves to hold the models of teeth, is made of soft photopolymer resin that imitates gum tissue. The body contains dental alveoli; in each dental alveolus there is a cavity that imitates the course of the roots of the teeth, as well as a rounded belt in the area where the gums come into contact with the neck of the tooth. Models of teeth are made of photopolymer resin that mimics the natural tissues of the tooth; on the neck of the tooth models there is a groove for better retention in the dental alveolus. Inside the tooth models, root canals are modeled, ending with holes that imitate the anatomical apex of the root canal.

Printing all the components on a 3D printer allows you to model any shape of teeth (for example, to reproduce pathologies or structural features), as well as use materials similar to natural tissues. The model can simulate both the upper and lower jaw. The flat polygonal shape of the base of the model and the presence of a groove in the front of the base make it possible to securely fix the model in the dental articulator. The ability to use a model with an articulator allows you to work with a pair of such models as the upper and lower jaw, reproducing the movements of the lower jaw in different planes and simulating the functional movements of the lower jaw. A notch in the base and inwardly inclined walls securely hold the body in the base. The gingiva body is made of photopolymer resin with properties similar to real gingiva, allowing you to practice your surgical skills on this model. The cavity imitating the course of the roots of the teeth prevents the rotation of the tooth, and also makes the training better and closer to real practice. The rounded belt in the area of gum contact with the neck of the tooth and the existing reciprocal groove on the tooth model serve as a reliable way to fix the tooth model in the body, while making it easy to replace the tooth model if necessary. The tooth models themselves are made of photopolymer resin, identical in strength to the natural tissues of the tooth, which allows the use of tools and materials that are used in the real practice of the dentist, creating real conditions for tooth preparation.

A phantom model for practicing manual skills by a dentist is illustrated by graphic material.

In FIG. 1 - lower part of the phantom model: 1 - base; 4 - body; 5 - models of teeth.

In FIG. 2 - base 1: 2 - notch; 3 - walls inclined inward.

In FIG. 3 - body 4, where 6 - dental alveoli; 8 - rounded belt.

In FIG. 4 - a cavity is visualized imitating the course of the roots of teeth 7 and a rounded belt 8 in body 4.

In FIG. 5 - models of teeth 5 with groove 9.

Figure 6 is a projection of the root canals 10 and their holes 11.

The phantom model is used as follows. The base 1 is fixed in the articulator. Then, the body 4 is placed in the recess 2 of the base 1, after which it is tightly fixed by the walls 3 tilted inward. Next, a tooth model 5 corresponding to it is placed in each dental alveolus 6 and cavity 7 until the groove 9 with a rounded belt 8 is fixed in the dental alveolus 6. After installing the tooth models 5, manual skills are trained, including with root canals 10, which end with holes 11. After working with the tooth models 5, they can be replaced by the above method.

A phantom model for practicing manual skills by a dentist can be used in dentistry to master manual skills used in dental practice.

INFORMATION SOURCES

1. Patent of the Russian Federation No. 200015, 01.10.2020. Dental simulator for mastering the skills of working with a dental mirror // Patent of Russia No. 200015. 2020. Bull. No. 38. / Mitin N.E., Sevbitov A.V., Borisov V.V. [and etc.].

2. A. Higashimura and T. Kokubo, US Patent 2014/0045160A.

Claims (1)

A phantom model for practicing manual skills by a dentist, made by printing on a 3D printer and including a base that has a flat polygonal shape with a recess and inwardly inclined walls for fixing the body, a body that imitates the gum and serves to hold tooth models, and teeth models, characterized in that the body imitating the gum is made of photopolymer resin, contains dental alveoli, each of which has a cavity that simulates the course of the roots of the teeth, and a rounded belt at the point of contact of the gum with the neck of the tooth model; the tooth model is made of photopolymer resin, identical in strength to the natural tissues of the tooth, and contains a groove for connection with a rounded belt in the dental alveolus; at the same time, root canals are made inside the tooth model, ending with holes imitating the anatomical apex of the root canal.