UA16699U - Simulator for studying the endovascular prosthetics of the abdominal aneurism by a self-locking endoprosthesis - Google Patents

Abstract

The proposed simulator for studying the endovascular prosthetics of the abdominal aneurism by a self-locking endoprosthesis contains a casing, which is made of trannsparent meterial, such as glass. At the casing, an opening is provided for coupling the casing cavity with a unit for pulse supply of liquid and a drain opening. The casing is divided into several sections. The shape of the cavity of each section corresponds to the shape of the defined aneurism. Between the sections, sealing gaskets are installed.

Description

Description of the invention

The useful model refers to medical technology and relates directly to the improvement of the medical 2 model for the study of endovascular prosthetics of abdominal aortic aneurysms with a self-fixing endoprosthesis.

A known medical model for the study of endovascular prosthetics of abdominal aortic aneurysms using a self-fixing endoprosthesis, which includes a body with a shaped cavity, inlet and outlet openings for delivery and placement of the endoprosthesis in the cavity, as well as a mechanism for forced displacement of the endoprosthesis.

Pitoi (Shu A.M., Spsheg V.M., Kisnaga M. ei aYi. Tgapeieetoga! epdomazsciag aogpis dgai riasetepi /Loigpa! oi 70 Mavssshiag Zygdegu, A!tsdivi, 1993, v8.185-197, Rid.7) | The disadvantage of this model is the low rate of imitation of endovascular prosthetics due to the lack of connection of the model to the source of fluid supply, which reduces the accuracy of conducting research on it.

The closest in essence and achievable result to the proposed technical solution is a medical model for the study of endovascular prosthetics of abdominal aortic aneurysms with a self-fixing endoprosthesis, which 12 contains a body made of a transparent material, such as plexiglass, with a shaped cavity and several cylindrical holes connected to it, one of which are connected to the source of pulsed liquid supply, and others - to the drain.

I.S.N. Volodos, R.D. Sayer, P.R. Bell et al. Influence of the volume of the contents of aneurysms! on intra-aneurysmal pressure after probe vascular prosthetics. / Angiology and vascular surgery, volume 11, Mo. 7/2005, p. 64-70, fig. 1|. Connecting the medical model to the source of pulsed fluid supply of one of the holes, and the other holes to the drain, increases the level of implantation of endovascular prosthetics of the aorta to the real conditions of prosthetics of the human aorta. The shaped cavity in the body creates an imitation of an aneurysm in the aorta, and the cylindrical holes play the role of landing sockets, that is, unchanged segments of the aorta, on which the endoprosthesis is placed. The latter is made in the form of a blood-tight shell made of woven synthetic material, connected from the inside with radially elastic fixing elements. Due to the spread of the shell 29 in the radial directions by the specified elements, the shell is pressed against the landing sockets of the model pl) and thus covers the aneurysmal cavity of the body from the flow of liquid.

As a rule, studies are performed on such a model to determine the tightness and density of the connection of the aorta, that is, the channels in the body, with the endoprosthesis.

The case in the model is made in one piece, and the shaped cavity in it is made according to the configuration that corresponds to the specific configuration of the studied aneurysm of the patient's aorta, and therefore the model can be used for the study of endoprosthesis of only one form of aneurysm. A large number of models are needed to study other forms of aortic aneurysms. This significantly reduces the functionality of the well-known model. Gee)

The task of this useful model is to create a medical model for endovascular research

From prosthetics of aneurysms of the abdominal aorta with a self-fixing endoprosthesis, which creates conditions for research - prosthetics of any form of aneurysms and, thus, increases functional capabilities.

The task is solved by the fact that in the medical model for the study of endovascular prosthetics, an aneurysm of the abdominal aorta with a self-fixing endoprosthesis containing a body made of a transparent material, "for example, Plexiglas, with a shaped cavity and several cylindrical holes connected to it, one of which is connected to a source of pulsed fluid supply, and the others - for draining, according to the useful model, the body c is made of separate removable sections connected by tie pins, each of which has a

"Iz" has a different configuration of the shaped cavity, corresponding to the specific shape of the investigated aortic aneurysm, and there are sealing gaskets between the specified sections. Each section of the body can be made in the form of a parallelepiped or in the form of a cylinder.

Construction of the body from separate removable sections connected by tie pins and sealing gaskets, each of which has a different configuration of the shaped cavity, corresponding to

Ge") of a specific form of the investigated aortic aneurysm makes it possible to create conditions for the study of prosthetics of any form of aortic aneurysms by replacing the corresponding section of the body and, thus, would increase the universality of the model. Making each section of the body in the form of a parallelepiped or cylinder simplifies (Te) 20 the manufacture of such a universal model.

Analogous technical solutions with similar features were not found during the patent information search. This indicates that the proposed technical solution is new, clinically and industrially suitable.

The useful model is explained by the drawing, where Fig. 1 shows the schematic diagram of the proposed medical model for the study of endovascular 29 prosthetics of the infrarenal form of the abdominal aortic aneurysm; c in Fig. 2 - the same, for prosthetics of the juxtarenal form of the aneurysm; in Fig. 3 - the same as in Fig. 1, for prosthetics of the suprarenal form of the aneurysm; in Fig. 4 - cross-section of AA in Fig. 1, when the body sections are made in the form of a parallelepiped; in Fig. 5 - cross-section of AA in Fig. 1, when the body sections are made in the form of a cylinder. 60 The medical model for the study of endovascular prosthetics of abdominal aortic aneurysms with a self-fixing endoprosthesis contains a body made of separate removable sections 1, 2 and 3, connected to each other by tensioning pins 4. Between the sections there are sealing gaskets 5, made of soft and elastic material, such as rubber. The body sections are made of a transparent material, such as Plexiglas, and have shaped cavities 6, as well as cylindrical openings 7, 8, 9 and 10 connected to it, one of which is connected to the source 11 of pulsed liquid supply, and the others to the drain 12. In each section, the configuration of the shaped cavity 6 is made in accordance with the specific shape of the investigated aortic aneurysm, and each section of the body is made either in the form of a parallelepiped or a cylinder. A tube 13 is installed in the shaped cavity b of each section to determine the amount of liquid that can seep through the gap between the upper 7 and lower cylinder 8 holes and the self-fixing endoprosthesis. The latter contains a cylindrical shell 14 made of blood-tight woven material, from the inside of which several fixing elastic elements 15, 16 and 17 are located and fixed with it, which must compress or expand in radial directions.

The side cylindrical holes 9 and 10 are intended for the location of the side branches of the bifurcation endoprosthesis (not marked on the drawing) in them, if there is a need for the study of the endoprosthesis of an aortic aneurysm with its 7/0. In addition, in the body sections, holes 18 can be made to simulate the renal arteries, as well as holes 19 and 20 - to simulate the upper mesenteric artery and the abdominal trunk of the aorta, respectively. The research model can be mounted on a vertical wall.

In the process of research, the body of the model is assembled from sections 1, 2 and 3, the configuration of the shaped cavity will correspond to the specific shape of the patient's aneurysm, and the specified sections are fastened together with tension pins 7/5 4 and its sealing gaskets 5 and 6. Through one of the side holes U or 10 an endoprosthesis is inserted into holes 7 and 8 in its compressed state. Due to the elastic properties of the fixing elements 15, 16 and 17, the sheath 14 of the endoprosthesis is pressed against the inner surface of the hole 7, which simulates the proximal unchanged segment of the abdominal aorta, and then - to the hole 8, that is, the distal segments of the aorta.

When performing research on endovascular prosthetics with the help of a bifurcation endoprosthesis, its side branches are located in openings 9 and 10.

Upon completion of the location of the appropriate endoprosthesis in the composite body, the endoprosthesis covers the shaped cavity 6 with its shell 14, which simulates an aneurysm of the aorta, and includes the supply of fluid to the model through the source 11. During the study, the amount of fluid passing through the gap between the endoprosthesis and holes 7 and 8 is measured. as well as displacement of the endoprosthesis from the initial state of its location in the specified holes.

By changing the relevant sections 71, 2 and Z to others, it is possible to carry out studies of endovascular prosthetics of any form of aneurysms with both tubular and bifurcation self-fixing endoprostheses. This increases the functionality of the proposed medical model several times and significantly reduces the costs of such research.

Claims (2)

30 Formula of the invention Fo 1. A medical model for the study of endovascular prosthetics of an aneurysm of the abdominal aorta with a self-fixing endoprosthesis containing a body made of a transparent material, such as plexiglass, with a shaped cavity and several cylindrical holes connected to it, one of which is connected to a source of "pulse fluid supply, and the others - to the drain, which is distinguished by the fact that the body is made of separate removable sections connected to each other by tie pins, each of which has a cavity with a different shaped configuration from the others, corresponding to the specific shape of the aortic aneurysm under study, while between the specified sections there are sealing gaskets " 2. Medical model according to claim 1, which differs in that each section of the body is made in the form of a parallelepiped. Q. The medical model according to claim 1, which differs in that each section of the body is made in the form of a cylinder. ;" - (22) (22) o 50 3e) c 60 b5