RU110525U1 - HUMAN JAW TRAINING MODEL FOR DENTAL IMPLANTATION - Google Patents

Abstract

 A training model of the human jaw for dental implantation, which is a plaster cast, characterized in that the alleged defect in the dentition is made from a portion of the femur of the chicken or turkey, corresponding to the height, width and length of the alveolar bone of the human jaw.

Description

The utility model relates to the field of medicine, in particular dentistry, namely dental implantation, and can be used as a training tool for the surgical and orthopedic stages of dental prosthetics on dental implants, both in case of single defects of the dentition and in the absence of teeth.

According to the purpose of the jaw model, one can classify:

- diagnostic, which are subject to study to clarify the diagnosis, planning the design of the future prosthesis;

- control, which are essentially diagnostic, since they record the state of the oral cavity before, during and after treatment. They are also called serial models;

- workers who make dentures, devices;

- auxiliary - models of the dentition opposite to the prosthetic jaw;

- training, which are used as visual aids in the study of the dentofacial system, as well as for the development of surgical procedures, including dental implantation.

Currently, domestic educational models for the manufacture of fixed and removable dentures are known. The material from which these working models are made is various types of gypsum, depending on its moisture content. (Orthopedic dentistry: a textbook for students / Abalmasov N.G., Abalmasov N.I., Bychkov V.A., Al-Hakim A. - 8th ed. - M .: MED-press-inform, 2011, 512 s, pp. 78-79).

The disadvantage of these domestic training models for the manufacture of fixed and removable dentures is the mismatch of their density with the anatomical structure of the alveolar process of the human jaw. (Ivanov A.S. Fundamentals of Dental Implantology. Textbook. St. Petersburg, Special Lite, 2011. - 63 p. S.14-15.).

Known training models for dental implantation made of various polymeric materials.

The MEDIUS company (website www. MEDIUS.RU) produces anatomical training models made of plastic of the brand AKR-7 (catalog Medical aids and simulators. OJSC MEDIUS. Medicine. Osteological models made of plastic. H5, C.13).

For example, Nobel Biocare (USA) uses for training a polymer model of the alveolar processes of the jaw (upper and lower) with different defects in the dentition (website www.nobelbiocare.com) (Fig. 1a is a side view; Fig. 1b is a top view).

Firm "Stomus" (St. Petersburg) in conjunction with the German University. Goethe (Frankfurt) conduct training on dental implantation of the ANCYLOS system on a training model of the lower jaw made of polymer material (website www.stomus.ru) (Figure 2).

According to the authors of the claimed utility model, the disadvantage of the above training polymer models is that the density of the polymer material does not correspond to the anatomical structure of the alveolar processes of the jaws of the person, which contributes to the consolidation of false tactile sensations in students and, accordingly, the development of incorrect conditioned reflexes.

As a prototype for the closest technical essence, we have chosen a training model for dental implantation, which is a polymer model of the alveolar processes of the jaw (upper and lower) with different defects of the dentition of Nobel Biocare (USA) (website www.nobelbiocare.com). (Fig. 1a is a side view; Fig. 1b is a top view) (website www.nobelbiocare.com).

As we have already indicated above, the disadvantage of the training model that we have chosen as a prototype is that the density of the polymer material does not correspond to the anatomical structure of the alveolar processes of the jaws of the person, which contributes to the consolidation of false tactile sensations in students and, accordingly, the development of incorrect conditioned reflexes.

The objective of the utility model is to develop the students' necessary conditioned reflexes of natural tactile sensations during dental implantation.

The technical result of the claimed utility model is the maximum approximation of bone density of the alveolar bone of the training model of the human jaw to the physiological density of the bone.

The technical result is achieved by the fact that in the training model of the jaw of a person, which is a plaster cast, the alleged defect in the dentition is made of a portion of the thigh bone of a chicken or turkey, corresponding to the height, width and length of the alveolar process of the jaw of a person.

Distinctive essential features of the claimed utility model are:

- the alleged defect in the dentition is made from a portion of the thigh bone of a chicken or turkey;

- a portion of the thigh bone of a chicken or turkey, from which the alleged defect of the dentition is made, corresponds to the height, width and length of the alveolar process of the jaw of a person.

A causal relationship between the salient features and the effect achieved:

- The implementation of the alleged defect of the dentition from the femur of the chicken or turkey in the claimed utility model provides the maximum approximation of the bone density of the alveolar bone of the jaw to its physiological density because the structure of the femur of the chicken or turkey consists of a compact and spongy layer and corresponds to the density of the jaw bone D-2 and D-3, (according to the classification proposed by Lekholm U., Zarb G. in 1985). With D-2, it is a dense cortical-spongy bone; the ratio of compact and spongy layer 1: 1. D-3 is a loose cortical spongy bone. The ratio of compact and spongy layer is 0.5: 1.

- The use of chickens or turkeys as a supposed defect in the femur can also be explained by the fact that this bone of these birds has a section corresponding to the height, width and length of the alveolar bone of the human jaw. (A. Ivanov, Fundamentals of Dental Implantology. Textbook. St. Petersburg, SpecLit, 2011. - 63 p. S.14-17.).

The set of distinctive essential features is new and allows you to maximally approximate the bone density of the alveolar process of the training model of the jaw of a person to the physiological density of the bone, and thereby develop the necessary conditioned reflexes of natural tactile sensations in students during dental implantation.

On figa and 3b shows a General view of the training model (Fig.3A is a top view, and Fig.3b is a rear view), where:

1. - alveolar bone of the jaw;

2. - the alleged defect in the dentition of the alveolar process;

3. - part of the thigh bone of a chicken or turkey.

The utility model works as follows:

Having fixed the training model of the alveolar bone of the jaw (1) in the phantom of the head, measure the height, width and length of the alleged defect in the dentition of the alveolar bone (2). A part of the thigh bone of a chicken or turkey is drilled (3) and dental implants are screwed into the created holes.

When drilling holes in the thigh bone of a chicken or turkey, the student experiences resistance of the bone (its compact and spongy layers, which are close in structure to the bone of the alveolar process of the human jaw) to the drill, and at the same time, the student develops conditioned reflexes of natural tactile sensations.

The material from which the training model of the human jaw for dental implantation is made, excluding the alleged defect in the dentition of the alveolar ridge, is the Belgian super gypsum brand FUJIROCK.

The alleged defect in the dentition of the alveolar ridge is made from the site of the femur of the chicken, but we have also successfully tested the training model of the jaw of a person in which the alleged defect in the dentition of the alveolar ridge is made from the portion of the femur of the turkey.

The inventive utility model allows you to maximally approximate the bone density of the alveolar process of the training model of the jaw of a person to the physiological density of the bone and thereby develop the necessary conditioned reflexes of natural tactile sensations in students during dental implantation.

Claims (1)

A training model of the human jaw for dental implantation, which is a plaster cast, characterized in that the alleged defect in the dentition is made from a portion of the femur of the chicken or turkey, corresponding to the height, width and length of the alveolar bone of the human jaw.