RU2691517C1 - Simulator nose partition model for developing manual skills in rhinosurgery - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medical equipment, namely to manuals in otorhinolaryngology, and aims at mastering and improving manual skills of working with medical instruments. Nasal septum model is configured to be attached peripherally in the simulator nose frame model and comprises a skeleton simulating an osteochondral skeleton of a nasal septum with a deformation of the septum made from elastoplastic polymer material and coated on both sides with a layer of polymer material imitating mucoperichondrium of a nasal septum. Frame is perforated. Cavities of the frame perforations are filled with material of the layer simulating mucoperichondrium of the nasal septum, and bridges connecting the opposite layers thereof are formed.EFFECT: higher quality of training due to realistic reproduction of anatomical structure of nasal septum, possibility of displaying various versions of existing deformations and development of skills of working with medical instruments, which are necessary for performing the main surgical stages of operations on a nasal septum.3 cl, 2 dwg

Description

The invention relates to medical equipment, namely to textbooks in otorhinolaryngology, and is intended for the development and improvement of manual skills in working with medical instruments that are necessary to perform the basic surgical techniques when performing operations on the nasal septum.

A simulator model is known for performing surgical interventions on hollow organs when mastering manual skills in laryngoscopy, made with the possibility of fixing the interchangeable mold used for direct surgical intervention in the simulator skeleton model (see RF patent for useful model No. 99889, IPC G09B 23/28 , 2010). The design of the known device does not allow to use it for the development and improvement of manual skills with medical instruments that are necessary to perform basic surgical techniques when performing operations on the nasal septum.

A known model of an operating organ of a simulator for mastering manual skills in rhinosurgery, made with the possibility of fixing it in a hollow model of a skeleton of a simulator nose (see RF patent for useful model No. 158398, IPC G09B 23/28, publ. 2015). The design of the known device does not allow to use it for the development and improvement of manual skills with medical instruments that are necessary to perform basic surgical techniques when performing operations on the nasal septum.

The proposed device is aimed at solving a technical problem and achieving a technical result consisting in improving the quality of training due to realistic reproduction of the anatomical structure of the nasal septum, the ability to display various options for existing deformities and to develop skills in working with medical instruments that are necessary to perform the main surgical steps of performing operations on nasal septum, despite the fact that the proposed model of the nasal septum has a robust design .

This technical result is achieved by the fact that the model of the nasal septum of the simulator for mastering manual skills in rhinosurgery, made with the possibility of fixing along the periphery in the model of the skeleton of the simulator's nose, contains a skeleton simulating the bone-cartilage skeleton of the nasal septum with a deformation of the septum, made of an elastic-plastic material and covered on both sides with a layer of polymer material simulating mucopericondria of the nasal septum, with the core made perforated, and the cavity of the perforations and filled with the material layer simulating mukoperihondry nasal septum.

At the same time, in the model of the nasal septum, the elastoplastic polymer core material may be a material of a group of polyolefins, preferably a copolymer of ethylene with vinyl acetate, possessing properties similar to the properties of cartilage material, and a layer that mimics mucopericondria of the nasal septum may be silicone having properties similar to material mucoperichondria nasal septum.

Performing a model of the nasal septum of a simulator for mastering manual skills in rhinosurgery, containing a skeleton, imitating a deformed bone-cartilage skeleton of the nasal septum, made of elastoplastic polymeric material, and covered on both sides with a layer of polymeric material imitating mucoperichondria of the nasal septum an account of the realistic reproduction of the anatomical structure of the nasal septum, the display of various variants of existing deformations, since onstruktivnoe performance of partitions is the most authentic. Accordingly, it provides the opportunity to practice the skills of working with medical instruments that are necessary to perform the main surgical stages of operations on the nasal septum.

The core is perforated, although the perforation cavities of the skeleton are filled with the material of the nasal septum imitating mucopericondria, which provides a high strength of attachment of this layer to the nasal septum skeleton, since the cavities filled with the material of the optic septum prevent the layers of the imitating mucoperichondria from the septum from the partition wall. . This embodiment allows you to get a reliable septum design and at the same time complicate the separation of layers simulating mucopericondria from the skeleton of the septum, which brings the simulation of surgical manipulation to real surgical practice,

As for the signs of dependent clauses 2-4, characterizing the materials from which the skeleton and mucoperichondria of the nasal septum are made, based on the large volume of surgical operations performed by the applicant, the choice of these materials can be considered one of the best.

FIG. 1 shows a section element of the model of the nasal septum (enlarged); FIG. 2a shows a complete assembly of the skeleton of the nose model and the model of the nasal septum; in fig. 2b is a detailing image of the skeleton of the nose model and the model of the septum.

Model 1 of the nasal septum of the simulator for mastering manual skills in rhinosurgery (usually performed interchangeable) contains a skeleton 2 simulating the bone and cartilage skeleton of the nasal septum (for example, made of ethylene-vinyl acetate copolymer, more specifically of the Savilen brand TU 6-05-1636-97) , covered on both sides with a layer 3 of a polymeric material imitating mucoperichondria of the nasal septum (for example, made of silicone, more specifically the brand Elastosil LR 3003 / 20A + B). At the same time, the core 2 is perforated, and the perforation cavities of the 4 skeleton are filled with the material of the layer simulating the mucoperic chondria of the nasal septum, so that these cavities form bridges connecting the opposite layers 3 of the polymeric material imitating the mucoperic chondria of the nasal septum.

It is known that deformations of the human nasal septum have different variants of the structure. Currently, there are several classifications of nasal septum deformities. The most popular among physicians is the classification proposed by Ranko Mladina (Mladina R. // Rhinology. - 1987. - Vol. 25. - P. 199-205.). In accordance with this classification, seven types of deformations of the nasal septum are distinguished. In order to fully master the operation on the nasal septum, it is necessary to perform a simulated surgical intervention for all seven types of deformities. FIG. 1, fig. 2a and 2b shows one of the variants of deformation, according to the Ranko Mladina classification - type 3 (Deviation 5 of the central part of the nasal septum from the sagittal axis of the model 1 nasal septum).

The proposed model 1 of the nasal septum is intended for use as part of a simulator for the development of manual skills in rhinosurgery, which may have a very different design. However, since the nasal septum model itself is not a rigid structure, it must be adapted to be fixed in some part that has a rigid structure, for example, in the nasal skeleton model 6, as shown in FIG. 2a and fig. 2b. The model of the skeleton of the nose may consist of two half-cones, between which establish model 1 of the nasal septum.

The model of the nasal septum simulator for the development of manual skills in rhinosurgery is used as follows.

Pre-select model 1 of the nasal septum in accordance with the necessary for the development of manual skills of deformation of the septum, for example, the type of deformation 1 according to the classification R.Mladina. Set the model 1 of the septum of the nose, for example, between the half-cones of the model 5 of the nose frame.

Simulation of operation septoplasty. Identify the front edge of the model 1 of the nasal septum and a scalpel perform a semi-penetrating incision of the layer 3 of a polymeric material that mimics the mucopericondria of the nasal septum prior to contact with the skeletal wall. This stage corresponds to the incision of the mucous membrane and perichondrium to expose the quadrangular cartilage in humans. Using a raspator, a layer 3 of a polymeric material that simulates the mucoperic chondria of the nasal septum is detached from the skeleton 2 of the nasal septum. The detachment begins on the side that is concave, continuing to the rear edge of the model 1 of the nasal septum. After that, proceed to the detachment of a polymeric material simulating mucopericidae on the opposite side. The polymer material is peeled off from the core until contact with the most pronounced section of the skeleton deformation. After that, using a scalpel or nose scissors, vertical and / or horizontal cuts of the core 2 are made, as a result of which the deformed section of the core 2 becomes mobile. It is shifted to the midline and the detachment of the layer 3 of a polymeric material that simulates mucopericondria of the nasal septum continues to the following deformed areas. Then, incisions are made above and below the deformed sections of the core with a scalpel or nasal scissors and displaced them to the midline. Conduct the study of selected fragments. The deformed parts of the core 2 are removed with the help of the nasal forceps, and the straight sections of the core 2 are left between the layers 3 of the polymeric material. Nodular stitches are placed on the incision, and silicone splints are fixed to the right and left nasal septum model 1, which are fixed to the nasal septum with 1 mattress suture. In case of damage to the layer 3 of a polymeric material imitating mucopericondria of the nasal septum, nodular sutures are applied to the rupture. Simulation surgery for this type of deformation of the nasal septum is completed.

To implement the following simulation surgery, the model 6 of the nose frame is disconnected, the used model 1 of the nasal septum is removed and a new model with a different type of deformation is established instead.

The proposed model of the nasal septum for the development of manual skills in rhinosurgery provides high quality training by increasing the accuracy of reproduction of the anatomical nasal septum model with regard to various types of deformations and has a simple and reliable design.

Claims (3)

1. Model of the nasal septum of the simulator for mastering manual skills in rhinosurgery, made with the possibility of fixing along the periphery in the model of the skeleton of the simulator's nose, containing a skeleton simulating the bone-cartilage skeleton of the nasal septum with a deformation of the septum, made of elastic-plastic material, and covered on both sides imitating mucoperichondria of the nasal septum with a layer of polymeric material, the skeleton is made perforated, and the cavities of the skeletal perforations are filled with the material of the layer imitating the flour perichondrium nasal septum and form bridges connecting opposite its layers. 2. The nasal septum model of claim 1, in which the elastoplastic polymer material of the core is an ethylene-vinyl acetate copolymer. 3. Model of nasal septum under item 1 or 2, in which the polymeric material that mimics mucoperichondria is silicone.

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