RU2796741C1 - Device for practicing microsurgical skills in suturing the dura mater - Google Patents

Abstract

FIELD: medicine; neurosurgery.

SUBSTANCE: invention can be used to practice microsurgical skills in suturing the dura mater. The invention relates to teaching aids in medicine. The device for practicing microsurgical skills in suturing the dura mater contains a body, four overlays and at least one layer of material imitating the dura mater. The body has the shape of a rectangular parallelepiped. The base of a rectangular parallelepiped is a square. Above the body there are rise elements in the form of rectangular parallelepipeds truncated by a plane, the base of which is also a square. The parallelepipeds are located at the corners of the base of the body and face the truncated parts towards the center of the base of the body. Four overlays in the form of rectangular parallelepipeds truncated by a plane are fixed to the body with the possibility of removal. Layers of material imitating the dura mater are fixed to the overlays.

EFFECT: improving the skills for suturing the dura mater in novice neurosurgeons and reducing complications in practicing neurosurgeons.

6 cl, 6 dwg

Description

The invention relates to medicine, namely to neurosurgery, and can be used to practice microsurgical skills in suturing the dura mater.

Known neurosurgical simulator (RU2022110258), which can be used to practice microsurgical skills in suturing the dura mater.

The disadvantages of this simulator are the complexity of the design, the difficulty of production due to the large number of different components from different materials, the bulky design and, as a result, the low availability for a wide range of students and poor practical applicability, as well as little resemblance to the natural tissues of the human body due to artificial origin. all components of the invention, which necessitates a serious adaptation of the neurosurgeon after training on this simulator during the performance of surgical interventions on patients.

A known model of training the imposition of microvascular anastomoses [Atlan M. et al. A new synthetic model for microvascular anastomosis training? A randomized comparative study between silicone and polyvinyl alcohol gelatin tubes // Journal of Surgical Education. - 2018. - T. 75. - No. 1. - S. 182-187.].

The disadvantage of this model is the development of only a highly specialized skill necessary for performing vascular operations, and the lack of the possibility of developing basic microsurgical skills required by all neurosurgeons for beginner neurosurgeons at the training stage.

A known set of microsurgical exercises [Crosby N. L. et al. Advanced non-animal microsurgical exercises //Microsurgery. - 1995. - T. 16. - No. 9. - S. 655-658].

The disadvantage of this model is the development of microsurgical skills on an artificial material (silicone glove), which is very far in its properties from the natural tissues of the human body that a neurosurgeon works with during operations, which means that such training provides a very superficial simulation of the necessary skills.

A device for practicing microvascular skills [Shimizu S. et al. Moist-condition training for cerebrovascular anastomosis: a practical step after mastering basic manipulations //Neurologia medico-chirurgica. - 2015. - T. 55. - No. 8. - S. 689-692].

The disadvantage of this device is the development of only a highly specialized skill necessary for performing vascular operations, and the lack of the possibility of developing basic microsurgical skills for novice neurosurgeons at the training stage, which is necessary for all neurosurgeons.

The technical problem solved in the present invention is to ensure the growth of the basic microsurgical skill in suturing the dura mater in novice neurosurgeons.

The technical result consists in increasing the growth of the basic microsurgical skill in suturing the dura mater in novice neurosurgeons and reducing the number of postoperative complications in these neurosurgeons in practical work.

The specified technical result is achieved by the fact that in a device for practicing microsurgical skills in suturing the dura mater containing a body, four linings and at least one layer of material imitating the dura mater, the body has the shape of a rectangular parallelepiped, the base of which is a square, with four raised elements in the form of rectangular parallelepipeds truncated by a plane, the base of which is a square, located at the corners of the body base with truncated parts towards the center of the body base, to which four overlays are fixed in the form of rectangular parallelepipeds truncated by a plane, the base of which is a square, to which it is fixed, along at least one layer of material that mimics the dura mater.

There is an option in which the body is made of acrylonitrile butadiene styrene (ABS), wood, metal, silicone, glass, polymethyl methacrylate, polyvinyl chloride, ethylene vinyl acetate, or thermoplastic elastomer.

There is an option in which the lining can be removable.

There is an option in which the lining can be part of the body.

There is an option in which there can be two or three overlays.

There is an option in which the material for removable linings can be silicone, foam or linoleum fragments.

There is an option in which removable pads are fixed to the body with glue, self-tapping screws, nails, tape or electrical tape.

There is a variant in which the material of the layer that mimics the dura mater can be rayon, microfiber, tarpaulin, cotton or chicken skin.

There is a variant in which the material of the layer imitating the dura mater is fixed to the overlays using push pins, paper clips, nails, adhesive tape, needles or rubber bands.

There is a variant in which there can be several layers of material imitating the dura mater.

In FIG. 1 shows a drawing of a device for practicing microsurgical skills in suturing the dura mater.

In FIG. 2 shows a photograph of a device for practicing microsurgical skills in suturing the dura mater

In FIG. 3 shows a photo of a device for practicing microsurgical skills in suturing the dura mater without a layer imitating the dura mater, fixed in a Mayfield-Kees bracket.

In FIG. 4 shows a photo of a device for practicing microsurgical skills in suturing the dura mater with a fixed layer imitating the dura mater in the form of chicken skin, fixed with push pins to the overlays.

In FIG. 5 shows a photo of the practical use by a neurosurgeon of a device for practicing microsurgical skills in suturing the dura mater.

In FIG. 6 shows a photo of the device after training the microsurgical skills of suturing the dura mater after training the skills of suturing the dura mater.

The device for practicing microsurgical skills in suturing the dura mater contains a body, four overlays and at least one layer of material imitating the dura mater. body 1 has the shape of a rectangular parallelepiped, the base of which is a square, with four towering elements 4, in the form of rectangular parallelepipeds truncated by a plane, the base of which is a square, located at the corners of the base of the body 1 with truncated parts towards the center of the base of the body, to which four overlays 2 are fixed in the form of rectangular parallelepipeds truncated by a plane, the base of which is a square, to which at least one layer 3 of material imitating the dura mater is fixed.

There is a variant in which the body 1 is made of acrylonitrile butadiene styrene (ABS), wood, metal, silicone, glass, polymethyl methacrylate, polyvinyl chloride, ethylene vinyl acetate or thermoplastic elastomer. This makes it possible to make the body 1 strong and resistant to pressure.

There is a variant in which the lining 2 can be removable. This allows you to change them when worn from use.

There is a variant in which the pads 2 can be part of the body. This allows you to increase the strength of the device.

There is a variant in which there can be two or three overlays 2. This allows the device to be used with a small amount of available materials.

There is a variant in which the material for the removable pads 2 can be silicone, foam or linoleum fragments. This allows the pads to be interchangeable.

There is a variant in which the removable pads 2 are fixed to the body 1 with glue, self-tapping screws, nails, adhesive tape or electrical tape. This allows you to tightly fix the pads 2 to the body 1.

There is a variant in which the material of layer 3, imitating the dura mater, can be rayon, microfiber, tarpaulin, cotton or chicken skin. This allows the use of publicly available materials for layer 3, as well as the use of the closest available organic material in structure to the natural tissues of the human body - chicken skin.

There is a variant in which the material of layer 3, imitating the dura mater, is fixed to the overlays 2 using push pins, paper clips, nails, adhesive tape, needles or rubber bands. This allows layer 3 to be tightly fixed to the linings 2.

There is a variant in which there can be several layers 3 of material imitating the dura mater.

This device can be implemented as follows. A layer 3 imitating the dura mater (for example, chicken skin taken from chilled chicken meat from a grocery store) is fixed to the body 1 with the overlays 2 fixed on it, as shown in Fig. 4, then fixed in the Mayfield-Kees bracket (Fig. 3) or left free (Fig. 5), then the microsurgical skills of suturing the dura mater are trained (Fig. 5, Fig. 6).

The fact that in the device for practicing microsurgical skills of suturing the dura mater, four overlays 4 and at least one layer 3 imitating the dura mater are fixed to the body 1, which leads to a simple configuration of the device and its accessibility.

The fact that the body 1 is made of acrylonitrile butadiene styrene (ABS), wood, metal, silicone, glass, polymethyl methacrylate, polyvinyl chloride, ethylene vinyl acetate or thermoplastic elastomer makes the body 1 strong and resistant to pressure.

The fact that the pads 2 can be removed allows them to be changed when worn from use.

The fact that the pads 2 can be part of the housing makes it possible to increase the strength of the device.

The fact that there can be two or three pads 2 allows the device to be used with a small amount of available materials.

The fact that the material for the removable pads 2 can be silicone, foam or linoleum fragments makes it possible to make the pads replaceable.

The fact that the removable pads 2 are fixed to the body 1 with glue, self-tapping screws, nails, adhesive tape or electrical tape allows the pads 2 to be tightly fixed to the body 1.

The fact that the material of layer 3, imitating the dura mater, can be viscose, microfiber, tarpaulin, cotton or chicken skin, allows the use of commonly available materials for layer 3, as well as the use of the closest available organic material in structure to the natural tissues of the human body - chicken skin.

The fact that the material of layer 3, imitating the dura mater, is fixed to the overlays 2 using pushpins, paper clips, nails, adhesive tape, needles or rubber bands, allows layer 3 to be tightly fixed to the overlays 2.

The fact that there can be several layers of 3 material imitating the dura mater allows you to create a more accurate imitation of the dura mater.

Claims (6)

1. A device for practicing microsurgical skills in suturing the dura mater, containing a body, four linings and at least one layer of material imitating the dura mater, characterized in that the body has the shape of a rectangular parallelepiped, the base of which is a square, with four towering elements in in the form of rectangular parallelepipeds truncated by a plane, the base of which is a square, located at the corners of the base of the body and facing the truncated parts towards the center of the base of the body, four overlays in the form of rectangular parallelepipeds truncated by the plane, the base of which is a square, are fixed to the body with the possibility of removal fixed layers of material imitating the dura mater. 2. The device according to claim 1, characterized in that the housing is made of acrylonitrile butadiene styrene, wood, metal, silicone, glass, polymethyl methacrylate, polyvinyl chloride, ethylene vinyl acetate or thermoplastic elastomer. 3. The device according to claim. 1, characterized in that the material of the removable lining is silicone, foam or linoleum fragments. 4. The device according to claim 1, characterized in that the removable pads are fixed to the body with glue, self-tapping screws, nails, adhesive tape or electrical tape. 5. The device according to claim. 1, characterized in that the material imitating the dura mater layer is viscose, microfiber, tarpaulin, cotton or chicken skin. 6. The device according to claim 5, characterized in that the material of the layer imitating the dura mater is fixed to the removable pads using push pins, paper clips, nails, adhesive tape, needles or rubber bands.

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