RU2149037C1 - Device for delivering reticular endoprosthesis - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has main catheter with an additional catheter mounted inside. Means for delivering the body of reticular endoprosthesis is positioned in the head part of the additional catheter and is designed as a string. The string is in its turn enclosed in a capillary catheter that is positioned in the additional catheter. Reticular endoprosthesis body interlacing is built from one nitinol or stainless steel thread forming loop-shaped structures on the ends. EFFECT: enhanced reliability; simplified design. 2 cl, 4 dwg

Description

 The invention relates to medicine and can be used in intravascular surgery.

 A catheter is known comprising an internal catheter and a self-expanding type stent having a cylindrical shape and consisting of a lattice of rigid intersecting fibers (see, for example, USA Patent No. 4,655,771, MKI A 61 F 2/06, 1988). The disadvantage of this device is the design complexity.

 Closest to the claimed device is a device for delivery of a mesh endoprosthesis containing a main catheter inside which an additional catheter is placed, and a means of delivery of a body of a mesh endoprosthesis made with the possibility of fixation and capture at the corresponding end (see, for example, EP N 0679374 A1, A 61 F 2/06, 1995).

 The disadvantage of this prototype is the lack of reliability of the design of such a device and its complexity.

 The technical task of the claimed invention is to provide a device for the delivery of mesh endoprosthesis with higher reliability and simpler design.

 The technical problem is achieved in that in a device for delivering a mesh endoprosthesis containing a main catheter, inside which an additional catheter is placed, and a means for delivering a body of a mesh endoprosthesis made with the possibility of fixation and capture at the corresponding end, the delivery means is located in front of the additional catheter and is made in the form of a string placed in a capillary catheter, placed in turn in an additional catheter, while the interweaving of the mesh endoprosthesis body is performed one yarn made of nitinol or stainless steel and at the ends of the mesh endoprosthesis are loop-shaped, the string is equipped with hooks placed at the corresponding end, with the possibility of being pulled apart.

 In FIG. 1 shows a device for delivering a mesh endoprosthesis (in cross section) before the moment of introducing a mesh endoprosthesis into a device for delivering a mesh endoprosthesis when the mesh endoprosthesis is brought into an elongated state by the pilot capsule.

 In FIG. 2 shows a device for delivering a mesh endoprosthesis (in cross section) at the time of removal of the mesh endoprosthesis from the main catheter.

 In FIG. Figure 3 shows a device for delivering a mesh endoprosthesis (in cross section) at the final moment of removal of the mesh endoprosthesis from the main catheter, but before disconnecting the mesh endoprosthesis from the hooks of the string.

 In FIG. 4 shows a device for delivering a mesh endoprosthesis (in cross section) at the moment when the mesh endoprosthesis is disconnected from the hooks of the string.

 A device for delivering a mesh endoprosthesis comprises a main catheter 1, an additional catheter 2, a string 3, hooks 4, a capillary catheter 5, a mesh endoprosthesis 6, a pilot capsule 7.

 The device operates as follows.

 Before the introduction of the mesh endoprosthesis 6 into the main catheter 1, which is an angiographic catheter, the mesh endoprosthesis 6 is brought into an elongated state by the pilot capsule 7 (see Fig. 1).

 When using the mesh endoprosthesis 6 independently expands due to its radial elasticity from the stress state with a small circle to the initial state, maintaining the walls of the vessel of a larger circle uniform in length. The mesh endoprosthesis 6 is made in the form of a mesh hollow volumetric body, the weaves of which are formed by a single thread with loop-shaped ends at the ends and are made of a material having the property of elasticity, which can be used nitinol, consisting, for example, of 54.73-55.7 % nickel and, accordingly, 45-43.8% titanium, or stainless steel type 12X18H10T or 1X18H9T. Moreover, the alloy with direct martensitic transformation at low temperatures was subjected to prolonged low-temperature annealing, which increases the strength and elastic properties of the mesh endoprosthesis 6 as a whole. This embodiment of the mesh endoprosthesis 6 allows the use of simpler and more reliable delivery means for its delivery to the vessel. In this case, the role of the delivery means is played by a string 3 placed in a capillary catheter 5, equipped with hooks 4 placed at its corresponding end, and placed in front of the additional catheter 2.

 The presence of loops at the ends of the mesh endoprosthesis 6 allows you to use hooks 4 to capture (fasten) the mesh endoprosthesis 6 at the right time for implantation, which are a simpler and more reliable means compared to the prototype.

 To deliver the mesh endoprosthesis 6 (in the folded state) to the distal (posterior) vessel, its end is fixed inside the front of the additional catheter 2 with hooks 4 located on the corresponding end of the string 3 inserted through the lumen of this catheter. The outer diameter of the additional catheter 2 allows you to conduct it through the lumen of the main catheter 1.

 The detachment of the hooks 4 from the mesh endoprosthesis 6 is carried out by removing the string 3 from the additional catheter 2 forward (see Fig. 4). In this case, the hooks 4 diverge to the sides and disconnect from the mesh endoprosthesis 6. Then, the string 3 is pulled into the additional catheter 2 and with it is removed from the main catheter 1. The string 3 with hooks 4 is inserted into the capillary catheter 5 for reliability, which should easily pass through the lumen of the additional catheter 2, to a greater extent guarantee the pushing out of the back of the mesh endoprosthesis 6 when it is disconnected from the hooks 4, and also to prevent blood leakage through the lumen of the additional catheter 2, through which and the string 3.

 If the opened mesh endoprosthesis 6 is not installed correctly, then before disconnecting the hooks 4, it can be removed from the vascular bed, moving it to another location, or introducing another, more suitable mesh endoprosthesis. This is done by holding the main catheter 1 forward while simultaneously holding the additional catheter 2 in place. In this case, the mesh endoprosthesis 6 folds and enters the lumen of the main catheter 1, the tip of the latter is set in another place. The implantation of the mesh endoprosthesis 6 is repeated again.

 In FIG. 2 shows how the string 3 together with the additional catheter 2 is fixed in place, and the main catheter 1 is slowly brought out, thereby pulling from the mesh endoprosthesis 6.

 In FIG. Figure 3 shows the moment when the main catheter 1 is withdrawn until the distal part of the additional catheter 2, with the hooks 4 of the string 3 placed in it, comes out of the lumen of the main catheter 1.

 In FIG. 4 shows the moment when the string 3 and the main catheter 1 are fixed in place, and the additional catheter 2 is pulled back. The hooks 4 of the string 3, diverging to the sides, are disconnected from the mesh endoprosthesis 6, after which the string 3 is drawn into the additional catheter 2 and with it removed from the main catheter 1.

 During implantation of the mesh endoprosthesis 6, angioscopic control is carried out by the introduction of test doses of a contrast medium along the main catheter 1.

 The first series of clinical trials of a mesh endoprosthesis delivery device confirm the presence of the aforementioned beneficial properties.

Claims (2)

 1. A device for delivering a mesh endoprosthesis, containing a main catheter inside which an additional catheter is placed, and a means for delivering a body of a mesh endoprosthesis made with the possibility of fixation and gripping at the corresponding end, characterized in that the delivery means is located in front of the additional catheter and is made in in the form of a string placed in a capillary catheter, placed in turn in an additional catheter, while the weave of the mesh endoprosthesis body is made with one thread of nitinol or stainless steel and the ends of the mesh prosthesis loop.  2. The device according to claim 1, characterized in that the string is equipped with hooks placed on the corresponding end, with the possibility of breeding to the sides.

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